Lovastatin

Drug overview for LOVASTATIN (lovastatin):

Generic name: LOVASTATIN (LOE-va-STAT-in)
Drug class: Antihyperlipidemics HMGCo-A Reductase Inhibitors (Statins)
Therapeutic class: Cardiovascular Therapy Agents

Lovastatin, a hydroxymethylglutaryl-CoA (HMG-CoA) reductase inhibitor (i.e., statin), is an antilipemic agent.

No enhanced Uses information available for this drug.

DRUG IMAGES

LOVASTATIN 40 MG TABLET
LOVASTATIN 10 MG TABLET
LOVASTATIN 20 MG TABLET

The following indications for LOVASTATIN (lovastatin) have been approved by the FDA:

Indications:
Atherosclerotic cardiovascular disease
Heterozygous familial hypercholesterolemia
Hypercholesterolemia
Hyperlipidemia
Increased risk of atherosclerotic cardiovascular disease
Mixed hyperlipidemia
Myocardial infarction prevention
Treatment to slow progression of coronary artery disease

Professional Synonyms:
Acute MI prophylaxis
Acute myocardial infarction prophylaxis
AMI prophylaxis
Atherosclerosis
Atherosclerotic vascular disease
Cardiac infarct prophylaxis
Cardiac infarction prophylaxis
Cardiovascular disease related to atherosclerosis
Combined hypercholesterolemia and hypertriglyceridemia
Elevated blood cholesterol level
Familial heterozygous hypercholesterolemia
Heterozygous familial elevated blood cholesterol
Hyperlipoidemia
Increased cardiovascular disease risk
Increased risk of ASCVD
Lipemia
Lipidemia
Lipoidemia
MI prophylaxis
Mixed dyslipidemia
Myocardial infarct prophylaxis
Myocardial infarction prophylaxis
Treatment to slow progression of CAD

The following dosing information is available for LOVASTATIN (lovastatin):

Dosing
Administration
LOVASTATIN
LOVASTATIN

Immediate-release tablets: Theusual recommended starting dosage of lovastatin (as immediate-release tablets) in adults is 20 mg once daily with the evening meal. The recommended dosing range is 10-80 mg/day in a single or 2 divided doses; the maximum recommended total daily dose is 80 mg.

Extended-release tablets: The recommended dosage of lovastatin (as extended-release tablets) in adults ranges from 20 to 60 mg once daily in the evening. In geriatric patients (>=65 years of age), the usual initial dosage of lovastatin as extended-release tablets is 20 mg once daily at bedtime. Higher dosages should be used only after careful consideration of the potential risks and benefits.

The AHA/ACC cholesterol management guideline states that the appropriate intensity of statin therapy should be used to reduce ASCVD risk. The guideline recommends use of high-intensity statin therapy (defined as reducing LDL-cholesterol concentrationsby at least 50%); if high-intensity statin therapy is not possible (e.g., because of a contraindication or intolerable adverse effect), moderate-intensity statin therapy (defined as reducing LDL-cholesterol concentrations by 30-49%) should be used. The AHA/ACC guideline panel considers lovastatin 40-80 mg daily to be a moderate-intensity statin.

Immediate-release tablets: The usual recommended initial dosage of lovastatin (as immediate-releasetablets) in adults is 20 mg once daily given with the evening meal. The manufacturer states that patients requiring reductions in LDL-cholesterolof 20% or greater should receive an initial lovastatin dosage of 20 mg daily; a dosage of 10 mg daily may be considered for patients requiring smaller reductions in LDL-cholesterol concentration. The recommended dosage range of lovastatin asimmediate-release tablets in adults is 10-80 mg daily given as a single dose or in 2 divided doses.

The maximum recommended dosage of lovastatin is 80 mg daily. Twice-daily dosing of lovastatin has been used in most clinical studies in patients with heterozygous familial hypercholesterolemia and appears to be slightly but consistently more effective than once-daily dosing; however, once-daily dosing may be acceptable for patients in whom dosing convenience is considered important for compliance particularly if only moderate degrees of hypercholesterolemia are present. When given as a single daily dose, lovastatin appears to be more effective when administered in the evening, possibly because cholesterol synthesis occurs mainly at night.

Extended-release tablets: The recommended dosage of lovastatin (as extended-release tablets) in adults ranges from 20 to 60 mg once daily in the evening. In geriatric patients (>=65 years of age), the usual initial dosage of lovastatin as extended-release tablets is 20 mg once daily at bedtime. Higher dosages should be used only after careful consideration of the potential risks and benefits.

Immediate-release tablets: The recommended dosage range of lovastatin (asimmediate-release tablets) for the management of heterozygous familial hypercholesterolemia in children 10-17 years of age is 10-40 mg daily. The manufacturer states that patients requiring reductions in LDL-cholesterol of 20% or greater should receive an initial lovastatin dosage of 20 mg daily; a dosage of 10 mg daily may be considered for patients requiring smaller reductions in LDL-cholesterol concentration. The maximum recommended dosage of lovastatin in children 10-17 years of age is 40 mg daily.

Extended-release tablets: Safety and efficacy of lovastatin extended-release tablets have not been established in patients younger than 20 years of age.

In patients receiving danazol, diltiazem, dronedarone, or verapamil concomitantly with lovastatin, dosage of lovastatin should be initiated at 10 mg daily and should not exceed 20 mg daily. In patients receiving amiodarone concomitantly with lovastatin, dosage of lovastatin should not exceed 40 mg daily.

Concomitant use of lovastatin and niacin (>=1 g/day) can increase the risk of myopathy and/or rhabdomyolysis. Caution should be used if lovastatin is administered with niacin (dosage >=1 g/day). The benefit of further alterations in lipid levels through the use of lovastatin with niacin should be carefully weighed against the potential risks of the combination.

No enhanced Administration information available for this drug.

Dosing information for LOVASTATIN
DRUG LABEL	DOSING TYPE	DOSING INSTRUCTIONS
LOVASTATIN 20 MG TABLET	Maintenance	Adults take 1 tablet (20 mg) by oral route once daily with the evening meal
LOVASTATIN 10 MG TABLET	Maintenance	Adults take 1 tablet (10 mg) by oral route once daily with the evening meal
LOVASTATIN 40 MG TABLET	Maintenance	Adults take 1 tablet (40 mg) by oral route once daily with the evening meal

Generic dosing information for LOVASTATIN
DRUG LABEL	DOSING TYPE	DOSING INSTRUCTIONS
LOVASTATIN 20 MG TABLET	Maintenance	Adults take 1 tablet (20 mg) by oral route once daily with the evening meal
LOVASTATIN 10 MG TABLET	Maintenance	Adults take 1 tablet (10 mg) by oral route once daily with the evening meal
LOVASTATIN 40 MG TABLET	Maintenance	Adults take 1 tablet (40 mg) by oral route once daily with the evening meal

The following drug interaction information is available for LOVASTATIN (lovastatin):

Contraindicated
Severe
Moderate

There are 19 contraindications. These drug combinations generally should not be dispensed or administered to the same patient. A manufacturer label warning that indicates the contraindication warrants inclusion of a drug combination in this category, regardless of clinical evidence or lack of clinical evidence to support the contraindication.

Drug Interaction	Drug Names
Itraconazole/Selected HMG-CoA Reductase Inhibitors SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Itraconazole may inhibit the metabolism of atorvastatin, lovastatin, or simvastatin by CYP3A4. CLINICAL EFFECTS: Concurrent administration of itraconazole may result in increased levels of atorvastatin, lovastatin, or simvastatin, which may result in an increased risk of rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Do not use lovastatin(1) or simvastatin(2-4) with itraconazole(5). The manufacturer of atorvastatin states the dose of atorvastatin should be limited to 20 mg in patients receiving itraconazole.(6) The manufacturer of itraconazole(5) states that concurrent use of atorvastatin should be carefully monitored. Concurrent therapy with cerivastatin and atorvastatin, lovastatin, or simvastatin is not recommended.(7) The US manufacturer of itraconazole states that concurrent administration with lovastatin or simvastatin is contraindicated during or two weeks after itraconazole treatment.(5) DISCUSSION: In a study, itraconazole (200 mg daily for 4 days) increased the AUC and Cmax of atorvastatin (40 mg single dose) by 3.3-fold and 20%, respectively.(6) In a randomized, double-blind, cross-over study, administration of atorvastatin (40 mg single dose) on day 4 of itraconazole (200 mg daily X 5 days) increased atorvastatin area-under-curve (AUC) and half-life (T1/2) 3-fold. There were no significant change in atorvastatin maximum concentration (Cmax). Atorvastatin lactone AUC, Cmax, and T1/2 increased 4-fold, 2-fold, and 2-fold respectively. The AUC of active and total HMG-CoA reductase inhibitors increased 1.6-fold and 1.7-fold, respectively.(8) In healthy subjects, itraconazole increased atorvastatin T1/2, AUC, and Cmax by 60%, 2.4-fold, and 47%, respectively. Itraconazole had no effect on pravastatin pharmacokinetics.(9) In a study in 18 healthy subjects, itraconazole (400 mg) increased the Cmax, AUC, and half-life of a single dose of atorvastatin (20 mg) by 38%, 150%, 30%, respectively.(10) Administration of cerivastatin (0.3 mg) with itraconazole (200 mg daily X 10 days) increased cerivastatin AUC and Cmax 38% and 12%, respectively. There was no effect on itraconazole pharmacokinetics. Administration of cerivastatin (0.8 mg single dose) with itraconazole increased cerivastatin AUC and Cmax by 27% and 25%, respectively.(11) In a randomized, double-blind, cross-over study in 10 healthy subjects, the administration of cerivastatin (0.3 mg single dose) on day 4 of itraconazole (200 mg) increased cerivastatin parent compound AUC 15%. Cerivastatin lactone AUC, Cmax, and T1/2 increased 2.6-fold, 1.8-fold, and 3.2-fold, respectively. The M-23 active metabolite AUC increased 36%. The AUC and T1/2 of all active cerivastatin derivatives increased 27% and 40%, respectively.(10) In a double-blind cross-over study in 12 healthy subjects, administration of lovastatin (40 mg single dose) after 4 days of itraconazole (200 mg daily) increased lovastatin Cmax by more than 20-fold. Lovastatin AUC and T1/2 increased from undetectable levels in all but 3 subjects during placebo phase to 546 ng/ml and 3.6+/-1 hours, respectively, during itraconazole. The lovastatin acid Cmax and AUC increased 13-fold and 23-fold, respectively, during concurrent itraconazole. The T1/2 of lovastatin acid increased from undetectable levels in the placebo phase to 6+/-1.1 hours in the itraconazole phase.(12) In a double-blind cross-over study in 10 subjects, administration of lovastatin (40 mg single dose) after 4 days of itraconazole (100 mg daily) increased lovastatin Cmax and AUC by about 15-fold. The lovastatin Cmax and AUC increased 12-fold and 15-fold, respectively, during itraconazole. The lovastatin and lovastatin acid T1/2 increased from undetectable levels to 3.7+/-3.8 hours and 4.7+/-4.0 hours, respectively, during itraconazole.(13) In a randomized, double-blind, cross-over study, administration of simvastatin (40 mg single dose) on day 4 of itraconazole (200 mg daily) increased simvastatin AUC and Cmax 10-fold. Simvastatin acid AUC and Cmax increased 19-fold and 17-fold, respectively. Simvastatin acid T1/2 increased 25%. The AUC, Cmax, and T1/2 of the HMG-CoA reductase inhibitors increased 5-fold, 3-fold, and 3-fold, respectively.(14) In a double-blind, cross-over study in 10 subjects, the administration of fluvastatin (40 mg single dose) after 4 days of itraconazole (100 mg daily) had no significant effect on the Cmax or AUC of fluvastatin. Fluvastatin T1/2 was slightly increased during itraconazole.(13) In a double-blind, cross-over study in 10 subjects, the administration of pravastatin (40 mg single dose) after 4 days of itraconazole (200 mg daily) had no significant effect on the Cmax, AUC, or T1/2 of pravastatin.(10) There are case reports of rhabdomyolysis with concurrent itraconazole and lovastatin(18-20)and with concurrent itraconazole and simvastatin(21-25). One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	ITRACONAZOLE, ITRACONAZOLE MICRONIZED, SPORANOX, TOLSURA
Selected Macrolides/Selected HMG-CoA Reductase Inhibitors SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: The macrolides may inhibit the metabolism of the HMG-CoA reductase inhibitors by CYP3A4. CLINICAL EFFECTS: Concurrent therapy may result in increased levels of the HMG-CoA reductase inhibitors, which may produce rhabdomyolysis. Symptoms of rhabdomyolysis include muscle pain, tenderness, weakness, elevated creatine kinase levels, and reddish-brown, heme positive urine. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The concurrent administration of lovastatin(1) or simvastatin(2,3) with clarithromycin or erythromycin is contraindicated. If treatment with clarithromycin or erythromycin is required, suspend lovastatin or simvastatin therapy during antibiotic use. DISCUSSION: Concurrent administration of cerivastatin and erythromycin to patients with hypercholesterolemia resulted in increases in cerivastatin steady state AUC and Cmax by 50% and 24%, respectively.(4) In a study in 12 healthy subjects, pretreatment with seven days of erythromycin resulted in increases in the AUC and Cmax of a single dose of cerivastatin (300 mcg) by 21% and 13%, respectively.(5) An in-vitro study in human liver microsomes showed that the metabolism of cerivastatin was inhibited by troleandomycin.(6) In a study in 12 healthy subjects, pretreatment with erythromycin increased the Cmax and AUC of a single dose of simvastatin by 3.4-fold and 6.2-fold, respectively. Pretreatment with erythromycin also increased the Cmax and AUC of simvastatin acid by 5.0-fold and 3.9-fold, respectively.(7) In a study in healthy subjects, clarithromycin increased the AUC of simvastatin, atorvastatin, and pravastatin by 10-fold, greater than 4-fold, and almost 2-fold, respectively.(8) There are several case reports of patients developing rhabdomyolysis (characterized by myalgia, weakness, elevated creatine kinase levels, and heme positive urine) following the addition of erythromycin to lovastatin therapy.(9-13) Another article reported two cases of rhabdomyolysis, one following the addition of clarithromycin to lovastatin therapy and the other following the addition of azithromycin to lovastatin therapy.(14) One patient developed rhabdomyolysis and severe myopathy after treatment with roxithromycin and combination simvastatin and gemfibrozil.(15) One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	CLARITHROMYCIN, CLARITHROMYCIN ER, E.E.S. 200, E.E.S. 400, ERY-TAB, ERYPED 200, ERYPED 400, ERYTHROCIN LACTOBIONATE, ERYTHROCIN STEARATE, ERYTHROMYCIN, ERYTHROMYCIN ESTOLATE, ERYTHROMYCIN ETHYLSUCCINATE, ERYTHROMYCIN LACTOBIONATE, LANSOPRAZOL-AMOXICIL-CLARITHRO, OMECLAMOX-PAK, VOQUEZNA TRIPLE PAK
Lovastatin; Simvastatin/Selected CYP3A4 Inhibitors SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Strong CYP3A4 inhibitors may inhibit the metabolism of HMG-CoA reductase inhibitors that are metabolized by CYP3A4. CLINICAL EFFECTS: Concurrent administration may result in elevated HMG levels, which may increase the risk of myopathy, including rhabdomyolysis.(1-18) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Do not use simvastatin with protease inhibitors,(1-3) with or without cobicistat(2,3) or ritonavir. The manufacturer of simvastatin states that the concurrent use of strong CYP3A4 inhibitors is contraindicated. The manufacturer of lovastatin states that the concurrent use of strong CYP3A4 inhibitors is contraindicated, including protease inhibitors, with or without cobicistat or ritonavir.(4, 25) The manufacturers of atazanavir,(5) cobicistat,(18) darunavir,(6) fosamprenavir,(7) indinavir,(8) the combination of lopinavir with ritonavir,(9) the combination of nirmatrelvir with ritonavir,(17) saquinavir,(11) and tipranavir(12) state that concurrent use of lovastatin or simvastatin is contraindicated. The manufacturer of nirmatrelvir/ritonavir recommends discontinuing use of lovastatin and simvastatin at least 12 hours prior to initiation of nirmatrelvir/ritonavir and holding statin therapy until 5 days after completing nirmatrelvir/ritonavir therapy.(17) The manufacturers of amprenavir(13) and nelfinavir(14) state that lovastatin and simvastatin should not be used with these agents. It would be prudent to utilize fluvastatin in patients treated with protease inhibitors who require HMG-CoA reductase therapy. DISCUSSION: A study in 15 subjects found that darunavir/ritonavir (300/100 mg twice daily) decreased the maximum concentration (Cmax) and area-under curve (AUC) of atorvastatin (10 mg daily) by 64% and 15%, when compared to atorvastatin (40 mg daily) administered alone. Atorvastatin minimum concentration (Cmin) increased by 81% during concurrent therapy.(6) A study in 16 subjects found that fosamprenavir increased atorvastatin Cmax and AUC by 304% and 130%, respectively. Atorvastatin Cmin decreased by 10%.(7) A study in 12 subjects found that lopinavir increased atorvastatin Cmax, AUC, and Cmin by 4.67-fold, 5.88-fold, and 2.28-fold, respectively. Atorvastatin had no clinically significant effect on lopinavir pharmacokinetics.(9) A study in 12 subjects found that lopinavir increased pravastatin Cmax and AUC by 1.26-fold and 1.33-fold, respectively. Pravastatin had no clinically significant effect on lopinavir pharmacokinetics.(9) A randomized, controlled trial in healthy subjects examined the effects of a combination of ritonavir and saquinavir on the pharmacokinetics of atorvastatin, pravastatin, and simvastatin and the effects of pravastatin on nelfinavir pharmacokinetics. The combination of ritonavir and saquinavir decreased pravastatin levels by 50% and increased atorvastatin and simvastatin levels by 79% and 3059%, respectively. Pravastatin had no statistically significant effect on nelfinavir pharmacokinetics.(14) An open-label study in healthy subjects examined the effects of nelfinavir on atorvastatin and simvastatin pharmacokinetics. Nelfinavir increased atorvastatin AUC, Cmax, and Cmin by 74%, 122%, and 39%, respectively. Nelfinavir increased simvastatin AUC and Cmax by 505% and 517%, respectively. There was no effect on nelfinavir pharmacokinetics when compared to historical controls.(14,16) A study in 14 healthy HIV-seronegative adults found that nelfinavir decreased median pravastatin AUC by 46.5%. Nelfinavir also decreased median pravastatin Cmax by 40.1%.(19) In a study of 25 HIV-positive patients, 13 patients were treated with pravastatin and 12 patients were treated with fluvastatin. Within the 25 patients, 8 patients were also on concomitant indinavir-containing highly active antiretroviral therapy (HAART). Indinavir plasma levels were not significantly influenced by pravastatin or fluvastatin therapy.(20) Rhabdomyolysis has been reported during concurrent use of simvastatin and nelfinavir(21) or ritonavir.(22) Lovastatin was tested in a single dose, open-labeled, randomized crossover study of ten healthy volunteers. Grapefruit juice increased Cmax of lovastatin 12-fold, and the area under the AUC 15-fold. Likewise, the active metabolite lovastatin acid demonstrated a 4-fold increase in Cmax and a 5-fold increase in AUC. Lovastatin and lovastatin acid concentrations and AUC increased in each subject.(23) A study found that itraconazole (200 mg for 4 days) increased lovastatin (40 mg on day 4)Cmax by greater than 25-fold and lovastatin acid AUC and Cmax by greater than 20-fold and 13-fold. A study found that itraconazole (100 mg for 4 days) increased lovastatin (40 mg on day 4) AUC and Cmax by greater than 14.8-fold and lovastatin acid AUC and Cmax by 15.4 and 11.5-fold.(25) One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	APTIVUS, ATAZANAVIR SULFATE, DARUNAVIR, EVOTAZ, FOSAMPRENAVIR CALCIUM, GENVOYA, KALETRA, KRAZATI, LOPINAVIR-RITONAVIR, NORVIR, PAXLOVID, PREZCOBIX, PREZISTA, REYATAZ, RITONAVIR, STRIBILD, SYMTUZA, TYBOST, VIRACEPT, ZYDELIG, ZYKADIA
Lovastatin; Simvastatin/Voriconazole SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Voriconazole may inhibit the metabolism of lovastatin and simvastatin by CYP3A4.(1-3) CLINICAL EFFECTS: Concurrent use of voriconazole may result in elevated levels of lovastatin and simvastatin and increase the risk of rhabdomyolysis.(1-3) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Concurrent use of voriconazole with lovastatin or simvastatin is contraindicated.(1,2) Therapy with lovastatin or simvastatin should be suspended during voriconazole therapy. In patients requiring long-term therapy with voriconazole, consider the use of pravastatin or reduced dosages of atorvastatin or fluvastatin, using the lowest dose possible(3,4) Patients should be carefully monitored for and instructed to report any signs of myopathy. DISCUSSION: Voriconazole has been shown to inhibit the metabolism of lovastatin in human liver microsomes in vitro.(3) A case report details the development of rhabdomyolysis and dyspnea in a allogeneic stem cell transplant patient taking voriconazole for fungal prophylaxis due to their immunosuppressant therapy while being started on simvastatin for high cholesterol.(5) One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	VFEND, VFEND IV, VORICONAZOLE
Lovastatin; Simvastatin/Nefazodone SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Nefazodone may inhibit the metabolism of lovastatin(1) and simvastatin(2-5) by CYP3A4. CLINICAL EFFECTS: The concurrent administration of nefazodone may result in elevated levels of lovastatin(1) or simvastatin,(2-5) which may result in rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Do not use lovastatin(1) or simvastatin(2-4) with nefazodone. Fluvastatin and pravastatin, HMG-CoA reductase inhibitors that are not extensively metabolized by CYP3A4, may be alternatives to other HMG-CoA reductase inhibitors in patients taking nefazodone.(4) DISCUSSION: In a single-dose study, the administration of simvastatin (40 mg) or atorvastatin (40 mg) following six days of nefazodone (200 mg twice daily) resulted in a 20-fold increase in simvastatin and simvastatin acid levels and 3- to 4-fold increase in atorvastatin and atorvastatin lactone levels.(5) There are case reports of rhabdomyolysis in patients receiving concurrent nefazodone and lovastatin(9) or simvastatin(5-9) therapy. One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	NEFAZODONE HCL
Lovastatin (Greater Than 20 mg); Simvastatin/Danazol SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Danazol may inhibit the metabolism of lovastatin(1) and simvastatin(2) by CYP3A4. CLINICAL EFFECTS: Concurrent use of danazol may result in elevated levels of lovastatin(1) and simvastatin(2,3) and toxicity, including rhabdomyolysis. One case report of pancreatitis was possibly caused by the danazol/lovastatin interaction.(7) PREDISPOSING FACTORS: Higher doses of lovastatin(1) or simvastatin(2,3) may increase the risk of myopathy. The risk for myopathy or rhabdomyolysis may also be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The US manufacturer of lovastatin states that in patients receiving danazol, lovastatin should be started at a dose of 10 mg daily and that the dose of lovastatin should not exceed 20 mg daily. The benefits of concurrent use should be carefully weighed against the risk of the combination.(1) Do not use simvastatin with danazol.(2-4) DISCUSSION: Concurrent use of danazol with lovastatin(1) or simvastatin(2-4) increases the risk of rhabdomyolysis. Rhabdomyolysis(5-7) and pancreatitis(5) have been reported with concurrent lovastatin and danazol and with concurrent simvastatin and danazol.(8,9) One case involved death.(8)	DANAZOL
Simvastatin (Greater Than 10 mg); Lovastatin (Greater Than 20 mg)/Diltiazem SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Diltiazem may inhibit the metabolism of lovastatin(1) and simvastatin(2-4) by CYP3A4. CLINICAL EFFECTS: Concurrent diltiazem may result in elevated levels of lovastatin(1) or simvastatin,(3) which may result in rhabdomyolysis. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Do not use more than 20 mg of lovastatin in patients receiving diltiazem.(1) Do not use more than 10 mg of simvastatin in patients receiving diltiazem.(2-4) Patients receiving concurrent therapy with diltiazem should be monitored closely for adverse effects of the HMG-CoA reductase inhibitor, including rhabdomyolysis. The dosage of the HMG-CoA reductase inhibitor may need to be reduced or discontinued. Fluvastatin or pravastatin, HMG-CoA reductase inhibitors that are not metabolized by CYP3A4, may be alternatives to atorvastatin, lovastatin, and simvastatin in patients receiving diltiazem. DISCUSSION: In a four-way crossover study in ten subjects, subjects received single doses of lovastatin (20 mg) alone and following two weeks of diltiazem (120 mg twice daily) therapy and single doses of pravastatin (20 mg) alone and following two weeks of diltiazem therapy (120 mg twice daily). Concurrent administration of diltiazem increased lovastatin area-under-curve (AUC) and maximum concentration (Cmax) by 2.6-fold and 3.3-fold, respectively. The increase in lovastatin AUC ranged from 51% to 906%. There were no changes in lovastatin half-life. Concurrent administration of diltiazem had no effect on the AUC, Cmax, or half-life of pravastatin.(5,6) In a study, diltiazem (120 mg twice daily for 10 days) increased the AUC and Cmax of a single dose of simvastatin (80 mg on Day 10) by 3.1-fold and 2.88-fold, respectively. The AUC and Cmax of simvastatin acid increased by 2.69-fold and 2.69-fold, respectively.(3) In a study in Chinese subjects, concurrent diltiazem (60 mg TID) and simvastatin (20 mg daily) enhanced reduction of LDL levels by 1.66% when compared to simvastatin (20 mg alone).(7) In a study in 11 patients with hypercholesterolemia and hypertension, concurrent administration of diltiazem (90 mg daily) and simvastatin (5 mg daily) increased the Cmax and AUC of simvastatin by 97% and 99.5%, respectively, when compared to administration of simvastatin (5 mg daily) alone. Diltiazem Cmax and AUC decreased by 21% and 21%, respectively, when compared to the administration of diltiazem (90 mg) alone. Combination therapy lowered LDL levels by an additional 9% when compared to simvastatin monotherapy.(8) In a study in 10 healthy subjects, diltiazem (120 mg daily for 2 weeks) increased the Cmax and AUC of a single dose of simvastatin (20 mg) by 3.6-fold and 5-fold, respectively. The Cmax of simvastatin acid increased by 3.7-fold.(2,9) A daily dose of 480 mg of diltiazem is expected to increase simvastatin levels 8-fold.(2 In a retrospective review, patients who received simvastatin with concurrent diltiazem experienced a 33.3% reduction in cholesterol levels compared with 24.7% in patients receiving simvastatin without concurrent diltiazem.(10) There are several case reports of myopathy and rhabdomyolysis in patients receiving concurrent simvastatin and diltiazem.(11-16) One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	CARDIZEM, CARDIZEM CD, CARDIZEM LA, CARTIA XT, DILT-XR, DILTIAZEM 12HR ER, DILTIAZEM 24HR ER, DILTIAZEM 24HR ER (CD), DILTIAZEM 24HR ER (LA), DILTIAZEM 24HR ER (XR), DILTIAZEM HCL, DILTIAZEM HCL-0.7% NACL, DILTIAZEM HCL-0.9% NACL, DILTIAZEM HCL-NACL, DILTIAZEM-D5W, MATZIM LA, TIADYLT ER, TIAZAC
Lovastatin (Greater Than 20 mg); Simvastatin (Greater Than 10 mg)/Verapamil SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Verapamil may inhibit the metabolism of lovastatin and simvastatin by CYP3A4.(1-6) CLINICAL EFFECTS: Concurrent verapamil may result in elevated levels of lovastatin or simvastatin, which may result in rhabdomyolysis.(1-6) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The manufacturer of lovastatin states that the dose of lovastatin should be started at a dose of 10 mg daily and that the dose of lovastatin should not exceed 20 mg daily in patients receiving concurrent therapy with verapamil.(2) The manufacturer of simvastatin recommends that the dose of simvastatin not exceed 10 mg daily in patients receiving concurrent therapy with verapamil unless the potential benefit outweighs the increased risk of myopathy.(3-6) Patients receiving concurrent therapy with verapamil with lovastatin or simvastatin should be monitored closely for adverse effects of the HMG-CoA reductase inhibitor, including rhabdomyolysis. The dosage of the HMG-CoA reductase inhibitor may need to be further reduced or discontinued. Fluvastatin or pravastatin, HMG-CoA reductase inhibitors that are not metabolized by CYP P-450-3A4, may be alternatives to atorvastatin, lovastatin, and simvastatin in patients receiving verapamil. DISCUSSION: A study in 12 subjects examined the effects of pretreatment with verapamil (240 mg daily) for two days on a single dose of simvastatin (40 mg). Pretreatment with verapamil resulted in 2.6-fold and 4.6-fold increases in the Cmax and AUC of simvastatin, respectively. Pretreatment with verapamil also increased the Cmax and AUC of simvastatin acid 3.4-fold and 2.8-fold, respectively. There were no effects on the half-life or time to maximum concentration (Cmax) of simvastatin.(1) In an analysis of clinical trials involving 25,248 patients treated with simvastatin 20 to 80 mg, the incidence of myopathy was higher in patients receiving verapamil and simvastatin (4/635) than in patients taking simvastatin without a calcium channel blocker (13/21,224).(3,4) Administration of multiple doses of low-dose verapamil (10 mg) and simvastatin (80 mg) increased simvastatin exposure by 2.5-fold.(7) One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	TRANDOLAPRIL-VERAPAMIL ER, VERAPAMIL ER, VERAPAMIL ER PM, VERAPAMIL HCL, VERAPAMIL SR
Simvastatin (Less than or Equal To 10 mg); Lovastatin (Less than or Equal To 20 mg)/Diltiazem (Greater Than 240 mg) SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Diltiazem may inhibit the metabolism of lovastatin(1,2) and simvastatin(2-6) by CYP3A4. CLINICAL EFFECTS: Concurrent diltiazem may result in elevated levels of lovastatin(1,2) or simvastatin,(2-6) which may result in rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Do not use more than 20 mg of lovastatin(1) or more than 240 mg of diltiazem(2) in patients receiving concurrent therapy with these agents. Do not use more than 10 mg of simvastatin(2-6) or more than 240 mg of diltiazem(2) in patients receiving concurrent therapy with these agents. Patients receiving concurrent therapy with diltiazem should be monitored closely for adverse effects of the HMG-CoA reductase inhibitor, including rhabdomyolysis. The dosage of the HMG-CoA reductase inhibitor may need to be reduced or discontinued. Fluvastatin or pravastatin, HMG-CoA reductase inhibitors that are not metabolized by CYP3A4, may be alternatives to atorvastatin, lovastatin, and simvastatin in patients receiving diltiazem. DISCUSSION: In a four-way crossover study in ten subjects, subjects received single doses of lovastatin (20 mg) alone and following two weeks of diltiazem (120 mg twice daily) therapy and single doses of pravastatin (20 mg) alone and following two weeks of diltiazem therapy (120 mg twice daily). Concurrent administration of diltiazem increased lovastatin area-under-curve (AUC) and maximum concentration (Cmax) by 2.6-fold and 3.3-fold, respectively. The increase in lovastatin AUC ranged from 51% to 906%. There were no changes in lovastatin half-life. Concurrent administration of diltiazem had no effect on the AUC, Cmax, or half-life of pravastatin.(5,6) In a study, diltiazem (120 mg twice daily for 10 days) increased the AUC and Cmax of a single dose of simvastatin (80 mg on Day 10) by 3.1-fold and 2.88-fold, respectively. The AUC and Cmax of simvastatin acid increased by 2.69-fold and 2.69-fold, respectively.(3) In a study in Chinese subjects, concurrent diltiazem (60 mg TID) and simvastatin (20 mg daily) enhanced reduction of LDL levels by 1.66% when compared to simvastatin (20 mg alone).(7) In a study in 11 patients with hypercholesterolemia and hypertension, concurrent administration of diltiazem (90 mg daily) and simvastatin (5 mg daily) increased the Cmax and AUC of simvastatin by 97% and 99.5%, respectively, when compared to administration of simvastatin (5 mg daily) alone. Diltiazem Cmax and AUC decreased by 21% and 21%, respectively, when compared to the administration of diltiazem (90 mg) alone. Combination therapy lowered LDL levels by an additional 9% when compared to simvastatin monotherapy.(8) In a study in 10 healthy subjects, diltiazem (120 mg daily for 2 weeks) increased the Cmax and AUC of a single dose of simvastatin (20 mg) by 3.6-fold and 5-fold, respectively. The Cmax of simvastatin acid increased by 3.7-fold.(2,9) A daily dose of 480 mg of diltiazem is expected to increase simvastatin levels 8-fold.(2 In a retrospective review, patients who received simvastatin with concurrent diltiazem experienced a 33.3% reduction in cholesterol levels compared with 24.7% in patients receiving simvastatin without concurrent diltiazem.(10) There are several case reports of myopathy and rhabdomyolysis in patients receiving concurrent simvastatin and diltiazem.(11-16) One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	CARDIZEM CD, CARDIZEM LA, CARTIA XT, DILTIAZEM 24HR ER, DILTIAZEM 24HR ER (CD), DILTIAZEM 24HR ER (LA), MATZIM LA, TIADYLT ER, TIAZAC
Selected CYP3A4 Substrates/Mifepristone SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Mifepristone is an inhibitor of CYP3A4 and may increase levels and effects of drugs metabolized by this enzyme.(1) CLINICAL EFFECTS: Lovastatin, simvastatin and CYP3A4 substrates with a narrow therapeutic window such as alprazolam, cyclosporine, dihydroergotamine, ergotamine, pimozide, quinidine, sirolimus, and tacrolimus or CYP3A4 substrates with a high first pass effect such as oral midazolam, sildenafil, and triazolam are particularly susceptible to significant toxicity.(1,2) PREDISPOSING FACTORS: Due to the need for continuous therapy and mifepristone's long half-life of 85 hours(1) which leads to accumulation, patients with endogenous Cushing's syndrome may be at an increased risk for toxicity. With pimozide, the risk of anticholinergic toxicities including cognitive decline, delirium, falls and fractures is increased in geriatric patients using more than one medicine with anticholinergic properties.(3) PATIENT MANAGEMENT: The US manufacturer of mifepristone for hypercortisolism due to endogenous Cushing's syndrome states use with lovastatin, simvastatin, CYP3A4 substrates with a narrow therapeutic range, or CYP3A4 substrates with a high first pass effect is contraindicated.(1) DISCUSSION: Administration of mifepristone 1200 mg daily for 10 days followed by a single dose of simvastatin 80 mg led to an increase of simvastatin and simvastatin acid (active metabolite) area-under-curve (AUC) of 10.4-fold and 15.7-fold, respectively.	KORLYM, MIFEPREX, MIFEPRISTONE
Lovastatin (Greater Than 20 mg); Simvastatin (Greater Than 10 mg)/Dronedarone SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Dronedarone may inhibit the metabolism of HMG CoA reductase inhibitors by CYP3A4 and P-glycoprotein.(1) CLINICAL EFFECTS: Concurrent use of dronedarone with certain HMG CoA reductase inhibitors may increase the risk of rhabdomyolysis.(1) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: When initiating lovastatin in a patient maintained on dronedarone, the starting dose of lovastatin should not exceed 10 mg. The dose of lovastatin not exceed 20 mg daily in patients receiving concurrent dronedarone unless the potential benefit outweighs the increased risk of myopathy.(2) Do not exceed 10 mg of simvastatin daily during concurrent therapy with dronedarone.(1,3) For other statins, the US manufacturer of dronedarone recommends following recommendations from the statin manufacturer regarding concurrent use of 3A4 inhibitors.(1) DISCUSSION: Concurrent dronedarone (400 mg BID for 14 days) and simvastatin (40 mg daily for 14 days) increased simvastatin maximum concentration (Cmax) and area-under-curve (AUC) and simvastatin acid by 3.75-fold and 3.9-fold, respectively. The Cmax and AUC of simvastatin acid increased by 2.14-fold and 1.96-fold, respectively.(1,3)	MULTAQ
Lovastatin; Simvastatin/Ribociclib SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Ribociclib may inhibit the metabolism of lovastatin and simvastatin by CYP3A4.(1,2) CLINICAL EFFECTS: Concurrent use of ribociclib may result in elevated levels of lovastatin and simvastatin and increase the risk of rhabdomyolysis.(1,2) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Concurrent use of strong CYP3A4 inhibitors with lovastatin or simvastatin is contraindicated.(1,2) Therapy with lovastatin or simvastatin should be suspended during ribociclib therapy. In patients requiring long-term therapy with ribociclib, consider the use of pravastatin or reduced dosages of atorvastatin or fluvastatin, using the lowest dose possible.(3) Patients should be carefully monitored for and instructed to report any signs of myopathy. DISCUSSION: In a study in healthy subjects, concomitant administration of ribociclib (400 mg once daily for 8 days) with midazolam increased the midazolam maximum concentration (Cmax) and area under the curve (AUC) by 2.1-fold and 3.8-fold, respectively. Administration of ribociclib 600 mg once daily is predicted to increase the midazolam Cmax and AUC by 2.4-fold and 5.2-fold, respectively.(4)	KISQALI
Atorvastatin; Lovastatin; Simvastatin/Glecaprevir-Pibrentasvir SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Glecaprevir-pibrentasvir may inhibit OATP1B1 and OATP1B3, resulting in increased concentrations of atorvastatin, lovastatin, or simvastatin.(1-3) CLINICAL EFFECTS: Concurrent use of glecaprevir-pibrentasvir may result in elevated levels of and toxicity from atorvastatin, lovastatin, and simvastatin including rhabdomyolysis.(1-3) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The US manufacturers of glecaprevir-pibrentasvir and of atorvastatin state that coadministration of glecaprevir-pibrentasvir with atorvastatin, lovastatin, or simvastatin is not recommended.(1,4) The Canadian manufacturer of glecaprevir-pibrentasvir also states that the coadministration of glecaprevir-pibrentasvir and lovastatin is not recommended.(5) If concurrent use is deemed medically necessary, instruct patients to report symptoms of muscle pain, tenderness, or weakness. The Canadian and UK manufacturers of glecaprevir-pibrentasvir and of atorvastatin state that coadministration of glecaprevir-pibrentasvir with atorvastatin or simvastatin is contraindicated.(2,3,5,6) DISCUSSION: In a study in 11 healthy subjects, glecaprevir-pibrentasvir (400/120 mg daily) increased the maximum concentration (Cmax) and area-under-curve (AUC) of atorvastatin (10 mg daily) by 22-fold and 8.28-fold, respectively. In a study in 12 healthy subjects, glecaprevir-pibrentasvir (400/120 mg daily) increased the AUC of lovastatin (10 mg once daily) by 1.70-fold. The Cmax and AUC of lovastatin acid was increased by 5.73-fold and 4.10-fold. In a study in 12 healthy subjects, glecaprevir-pibrentasvir (400/120 mg daily) increased the Cmax and AUC of simvastatin (5 mg once daily) by 1.99-fold and 2.32-fold, respectively. The Cmax and AUC of simvastatin acid was increased by 10.7-fold and 4.48-fold, respectively.	MAVYRET
Lovastatin; Pravastatin/Gemfibrozil SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Unknown. CLINICAL EFFECTS: Concurrent administration of HMG-CoA reductase inhibitors and fibric acid derivatives has been associated with severe myopathy, rhabdomyolysis and acute renal failure. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: According to 2013 ACC/AHA Blood Cholesterol Guidelines, gemfibrozil should not be initiated in patients on statin therapy. Fenofibrate may be considered with low or moderate intensity statin therapy only if benefits outweigh the risks. According to 2016 AHA guidelines on the management of drug-drug interactions with statins, concurrent use of gemfibrozil with lovastatin, pravastatin, or simvastatin should be avoided and concurrent use with atorvastatin, pitavastatin, or rosuvastatin may be considered if fenofibrate or fenofibric acid is not an option. Concurrent therapy with atorvastatin should be initiated at 10 mg daily and increased to 20 mg daily if tolerated and necessary. Concurrent therapy with pitavastatin should be initiated at 1 mg daily and increased to 2 mg daily if tolerated and necessary. Concurrent therapy with rosuvastatin should be initiated at 5 mg daily and increased to 10 mg daily if tolerated and necessary. The US, Australian, Canadian, and UK manufacturers of gemfibrozil state that use with HMG CO-A reductase inhibitors does not outweigh the risks of severe myopathy, rhabdomyolysis, and acute renal failure. The US and UK manufacturers of gemfibrozil state that concurrent use of simvastatin is contraindicated. The Canadian manufacturer of gemfibrozil states that HMG CO-A reductase inhibitors should not be used concurrently. The US and Canadian manufacturers of lovastatin state concurrent use of gemfibrozil should be avoided. The US, Canadian, and UK manufacturers of pravastatin state that concurrent use of gemfibrozil should be avoided. Instruct patients receiving concurrent therapy to report any unexplained muscle pain, tenderness or weakness. If muscular symptoms develop, monitor serum creatine kinase levels and renal function. One or both agents may need to be discontinued. DISCUSSION: Gemfibrozil has been shown to increase levels of cerivastatin, lovastatin, pravastatin, rosuvastatin, and simvastatin. Administration of gemfibrozil with cerivastatin, lovastatin, and simvastatin has been associated with myolysis and rhabdomyolysis (muscle pain, tenderness, and weakness). Although the reaction has been reported with the statins alone, the incidence increases dramatically with concurrent administration of gemfibrozil. Concurrent fenofibrate (145 mg) with atorvastatin (20 mg) decreased the atorvastatin area-under-curve (AUC) by 17% (range from 67% decrease to 44% increase). Atorvastatin maximum concentration (Cmax) and the kinetics of fenofibrate were not significantly affected. Concurrent fenofibrate (160 mg daily) increased the AUC and Cmax of pitavastatin (4 mg daily) by 18% and 11%, respectively. Concurrent gemfibrozil (600 mg twice daily) increased the AUC and Cmax of pitavastatin (4 mg daily) by 45% and 31%, respectively. Concurrent fenofibrate (145 mg) with pravastatin (40 mg) increased pravastatin Cmax and AUC by 36% (range from 69% decrease to 321% increase) and 28% (range from 54% decrease to 128% increase), respectively, and the 3-alpha-hydroxy-iso-pravastatin Cmax and AUC by 55% (range from 32% decrease to 314% increase) and by 39% (range from 24% decrease to 261% increase), respectively. A single dose of pravastatin had no effect on the kinetics of fenofibrate. Concurrent fenofibrate and rosuvastatin resulted in no significant changes in rosuvastatin or fenofibrate levels. Concurrent gemfibrozil 600 mg twice daily for 3 days, followed by lovastatin 40 mg increased the AUC of the active metabolite of lovastatin 2.8 fold. Concurrent gemfibrozil (600 mg twice daily) and rosuvastatin (80 mg) increased the rosuvastatin AUC and Cmax by 90% and 120%, respectively. In healthy subjects, gemfibrozil increased the Cmax and AUC of a single dose of rosuvastatin by 2.2-fold and 1.9-fold, respectively. The risk of rhabdomyolysis with concurrent fibrate and HMG CoA reductase inhibitor therapy appears to be greater with gemfibrozil. Analysis of the FDA Adverse Event Report database indicates that the rate is 30 times higher with gemfibrozil than with fenofibrate. In an analysis of data from the Veteran's Administration over a 2 year period, there were 149 reports of rhabdomyolysis in 93,677 (0.16%) patients receiving concurrent gemfibrozil and statin therapy compared with no reports in 1,830 patients receiving concurrent fenofibrate and statin therapy. In a retrospective cohort study of 252,460 patients, concurrent use of statins and fibrates increased the risk of rhabdomyolysis, especially in patients with diabetes mellitus. The risk of hospitalization for patients aged 65 or older with diabetes mellitus, treated with a statin and fibrate, increased 48-fold compared to statin monotherapy. In a retrospective study, of 468 patients with a diagnosis of myopathy, 61 received a statin prior to their diagnosis. Forty-one of these patients developed confirmed myopathy, creatinine kinase more than or equal to 1000 IU/L.	GEMFIBROZIL, LOPID
Fluvastatin (Greater Than 20 mg); Lovastatin (Greater Than 20 mg); Simvastatin (Greater Than 20 mg)/Elbasvir-Grazoprevir SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Elbasvir-grazoprevir may inhibit intestinal BCRP, resulting in increased absorption of simvastatin. The mechanism of interaction with fluvastatin and lovastatin is not known, but may be related to competitive inhibition of OATP1B1 by elbasvir-grazoprevir.(1-3) CLINICAL EFFECTS: Concurrent use of elbasvir-grazoprevir may result in elevated levels of and toxicity from fluvastatin, lovastatin, and simvastatin, including rhabdomyolysis.(1-3) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on fluvastatin who are CYP2C9 intermediate or poor metabolizers may have increased fluvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: The Canadian and UK manufacturers of elbasvir-grazoprevir and of simvastatin recommend that, in patients requiring elbasvir-grazoprevir, doses greater than 20 mg daily of fluvastatin, lovastatin, or simvastatin should not be used.(1,2) The US manufacturer of elbasvir-grazoprevir states that the lowest possible dose of fluvastatin, lovastatin, or simvastatin should be used.(3) If concurrent use is deemed medically necessary, instruct patients to report symptoms of muscle pain, tenderness, or weakness. DISCUSSION: Elbasvir-grazoprevir is a substrate of OATP1B1 and has been shown to inhibit intestinal BCRP.(1,3) Fluvastatin and lovastatin are substrates of OATP1B1 and simvastatin is a substrate of BCRP and OATP1B1.(4) Studies with other statins (i.e., atorvastatin, rosuvastatin) have shown that elbasvir-grazoprevir can increase the concentrations of these statins. While interaction studies of elbasvir-grazoprevir with fluvastatin, lovastatin, and simvastatin have not been done, fluvastatin and lovastatin concentrations have been shown to increase with other OATP1B1 inhibitors, and simvastatin levels have been shown to increase with other BCRP inhibitors.(4)	ZEPATIER
Lovastatin; Simvastatin/Tucatinib SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Tucatinib may inhibit the metabolism of lovastatin and simvastatin by CYP3A4.(1,2) CLINICAL EFFECTS: Concurrent use of tucatinib may result in elevated levels of lovastatin and simvastatin and increase the risk of rhabdomyolysis.(1,2) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Concurrent use of strong CYP3A4 inhibitors with lovastatin or simvastatin is contraindicated.(1,2) In patients requiring long-term therapy with tucatinib, consider the use of pravastatin or reduced dosages of atorvastatin or fluvastatin, using the lowest dose possible.(3) Patients should be carefully monitored for and instructed to report any signs of myopathy. DISCUSSION: A single dose of midazolam 2 mg given with tucatinib 300 mg twice daily increased the maximum concentration (Cmax) and area-under-curve (AUC) of midazolam by 3-fold and 5.7-fold, respectively.(4)	TUKYSA
Slt HMG-CoA Reductase Inhibitors/Ketoconazole; Posaconazole SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Ketoconazole(1) and posaconazole(2,3) may inhibit the metabolism of cerivastatin(4), lovastatin(5) or simvastatin(6) by CYP3A4. CLINICAL EFFECTS: Concurrent administration of ketoconazole or posaconazole may result in increased levels of cerivastatin, lovastatin or simvastatin, which may result in an increased risk of rhabdomyolysis.(1-6) PREDISPOSING FACTORS: The risk of myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCOB1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Strong CYP3A4 inhibitors such as ketoconazole and posaconazole are contraindicated with cerivastatin, lovastatin and simvastatin.(1-6) DISCUSSION: In a double-blind cross-over study in 12 healthy subjects, administration of lovastatin (40 mg single dose) after 4 days of itraconazole (200 mg daily) increased lovastatin maximum concentration (Cmax) by more than 20-fold. Lovastatin area-under-curve (AUC) and half-life (T1/2) increased from undetectable levels in all but 3 subjects during placebo phase to 546 ng/ml and 3.6+/-1 hours, respectively, during itraconazole coadministration. The lovastatin acid Cmax and AUC increased 13-fold and 23-fold, respectively, during concurrent itraconazole. The T1/2 of lovastatin acid increased from undetectable levels in the placebo phase to 6+/-1.1 hours in the itraconazole phase.(7) In a double-blind cross-over study in 10 subjects, administration of lovastatin (40 mg single dose) after 4 days of itraconazole (100 mg daily) increased lovastatin Cmax and AUC by about 15-fold. The lovastatin Cmax and AUC increased 12-fold and 15-fold, respectively, during itraconazole. The lovastatin and lovastatin acid T1/2 increased from undetectable levels to 3.7+/-3.8 hours and 4.7+/-4.0 hours, respectively, during itraconazole.(8) In a study, pretreatment with posaconazole (100 mg daily for 13 days) increased the Cmax and AUC of a single dose of simvastatin (40 mg) by 841% and 931%, respectively. The Cmax and AUC of simvastatin acid increased 817% and 634%, respectively.(3) In a study, pretreatment with posaconazole (200 mg daily for 13 days) increased the Cmax and AUC of a single dose of simvastatin (40 mg) by 1041% and 960%, respectively. The Cmax and AUC of simvastatin acid increased 851% and 748%, respectively.(3) In a randomized, fixed-sequence, parallel-group, single-center, open-label study, administration of different strengths of posaconazole (50, 100, or 200 mg) were evaluated with regards to its effects on simvastatin concentration. The regimen consisted of midazolam 2 mg orally 9 days prior to the initiation of posaconazole and simvastatin 40 mg orally 6 days prior to initiation of posaconazole. Posaconazole was then given alone on days 1-7 once daily followed by coadministration with midazolam on day 8 and then posaconazole again alone on days 9-10. On day 11 simvastatin was given with posaconazole followed by posaconazole alone on days 12-13. Results showed a significant increase in the Cmax and AUC of simvastatin when given with posaconazole vs. given alone.(9) Administration of cerivastatin (0.3 mg) with itraconazole (200 mg daily X 10 days) increased cerivastatin AUC and Cmax 38% and 12%, respectively. There was no effect on itraconazole pharmacokinetics. Administration of cerivastatin (0.8 mg single dose) with itraconazole increased cerivastatin AUC and Cmax by 27% and 25%, respectively.(10) In a randomized, double-blind, cross-over study in 10 healthy subjects, the administration of cerivastatin (0.3 mg single dose) on day 4 of itraconazole (200 mg) increased cerivastatin parent compound AUC 15%. Cerivastatin lactone AUC, Cmax, and T1/2 increased 2.6-fold, 1.8-fold, and 3.2-fold, respectively. The M-23 active metabolite AUC increased 36%. The AUC and T1/2 of all active cerivastatin derivatives increased 27% and 40%, respectively.(11) There are case reports of rhabdomyolysis with concurrent itraconazole and lovastatin(12-14) and with concurrent itraconazole(15-19) or ketoconazole(20-22) and simvastatin. One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	KETOCONAZOLE, NOXAFIL, POSACONAZOLE
Atorvastatin; Lovastatin; Simvastatin/Lonafarnib SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Lonafarnib may inhibit the metabolism of atorvastatin, lovastatin and simvastatin by CYP3A4.(1-4) CLINICAL EFFECTS: Concurrent use of lonafarnib may result in elevated levels of atorvastatin, lovastatin and simvastatin and increase the risk of rhabdomyolysis.(1-4) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Concurrent use of strong CYP3A4 inhibitors with atorvastatin, lovastatin or simvastatin is contraindicated.(1-4) Therapy with atorvastatin, lovastatin or simvastatin should be suspended during lonafarnib therapy. Patients should be carefully monitored for and instructed to report any signs of myopathy. DISCUSSION: In a study in healthy subjects, concomitant administration of midazolam (3 mg single dose) with lonafarnib (100 mg twice daily for 5 days) increased the concentration maximum (Cmax) and area-under-curve (AUC) of midazolam by 180% and 639%, respectively.(4)	ZOKINVY
Slt HMG-CoA Reductase Inhibitors/Levoketoconazole SEVERITY LEVEL: 1-Contraindicated Drug Combination: This drug combination is contraindicated and generally should not be dispensed or administered to the same patient. MECHANISM OF ACTION: Levoketoconazole(1) may inhibit the metabolism of cerivastatin(2), lovastatin(3) or simvastatin(4) by CYP3A4. CLINICAL EFFECTS: Concurrent administration of levoketoconazole may result in increased levels of cerivastatin, lovastatin or simvastatin, which may result in an increased risk of rhabdomyolysis.(1-4) PREDISPOSING FACTORS: The risk of myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCOB1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Strong CYP3A4 inhibitors such as levoketoconazole are contraindicated with cerivastatin, lovastatin and simvastatin.(1-4) DISCUSSION: There are multiple studies and case reports showing increased levels and cases of rhabdomyolysis with other strong CYP3A4 inhibitors (e.g. itraconazole, posaconazole, and ketoconazole). In a double-blind cross-over study in 12 healthy subjects, administration of lovastatin (40 mg single dose) after 4 days of itraconazole (200 mg daily) increased lovastatin maximum concentration (Cmax) by more than 20-fold. Lovastatin area-under-curve (AUC) and half-life (T1/2) increased from undetectable levels in all but 3 subjects during placebo phase to 546 ng/ml and 3.6+/-1 hours, respectively, during itraconazole coadministration. The lovastatin acid Cmax and AUC increased 13-fold and 23-fold, respectively, during concurrent itraconazole. The T1/2 of lovastatin acid increased from undetectable levels in the placebo phase to 6+/-1.1 hours in the itraconazole phase.(5) In a double-blind cross-over study in 10 subjects, administration of lovastatin (40 mg single dose) after 4 days of itraconazole (100 mg daily) increased lovastatin Cmax and AUC by about 15-fold. The lovastatin Cmax and AUC increased 12-fold and 15-fold, respectively, during itraconazole. The lovastatin and lovastatin acid T1/2 increased from undetectable levels to 3.7+/-3.8 hours and 4.7+/-4.0 hours, respectively, during itraconazole.(6) In a randomized, fixed-sequence, parallel-group, single-center, open-label study, administration of different strengths of posaconazole (50, 100, or 200 mg) were evaluated with regards to its effects on simvastatin concentration. The regimen consisted of midazolam 2 mg orally 9 days prior to the initiation of posaconazole and simvastatin 40 mg orally 6 days prior to initiation of posaconazole. Posaconazole was then given alone on days 1-7 once daily followed by coadministration with midazolam on day 8 and then posaconazole again alone on days 9-10. On day 11 simvastatin was given with posaconazole followed by posaconazole alone on days 12-13. Results showed a significant increase in the Cmax and AUC of simvastatin when given with posaconazole vs. given alone.(7) Administration of cerivastatin (0.3 mg) with itraconazole (200 mg daily X 10 days) increased cerivastatin AUC and Cmax 38% and 12%, respectively. There was no effect on itraconazole pharmacokinetics. Administration of cerivastatin (0.8 mg single dose) with itraconazole increased cerivastatin AUC and Cmax by 27% and 25%, respectively.(8) In a randomized, double-blind, cross-over study in 10 healthy subjects, the administration of cerivastatin (0.3 mg single dose) on day 4 of itraconazole (200 mg) increased cerivastatin parent compound AUC 15%. Cerivastatin lactone AUC, Cmax, and T1/2 increased 2.6-fold, 1.8-fold, and 3.2-fold, respectively. The M-23 active metabolite AUC increased 36%. The AUC and T1/2 of all active cerivastatin derivatives increased 27% and 40%, respectively.(9) There are case reports of rhabdomyolysis with concurrent itraconazole and lovastatin(10-12) and with concurrent itraconazole(13-17) or ketoconazole(18-20) and simvastatin.	RECORLEV

There are 10 severe interactions. These drug interactions can produce serious consequences in most patients. Actions required for severe interactions include, but are not limited to, discontinuing one or both agents, adjusting dosage, altering administration scheduling, and providing additional patient monitoring. Review the full interaction monograph for more information.

Drug Interaction	Drug Names
Atorvastatin (Less Than or Equal To 10 mg); Lovastatin/Cyclosporine SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Unknown. CLINICAL EFFECTS: Myopathy and muscle aches, tenderness and weakness (rhabdomyolysis) may occur with concurrent administration of HMG-CoA reductase inhibitors and cyclosporine. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Avoid the concurrent use of atorvastatin(1) or lovastatin(2) with cyclosporine. If concurrent use is necessary, the dose of atorvastatin should be limited to 10 mg or less.(3) When possible use alternative therapy, such as fluvastatin at dosages of 20 mg BID or less,(4) pravastatin at dosages of 20 mg daily or less,(5) or rosuvastatin at dosages of 5 mg daily or less.(6) Patients receiving concurrent therapy should be instructed to report symptoms of muscle pain, tenderness, or weakness. DISCUSSION: Since this reaction may occur with HMG-CoA-reductase inhibitors alone, a causal relationship is difficult to establish. However, the incidence of myopathy and rhabdomyolysis appears to increase with concurrent administration of cyclosporine. In a study in 18 renal transplant patients, atorvastatin had no effect on the pharmacokinetics of cyclosporine.(7) In a study in six liver transplant patients, atorvastatin increased the area-under-curve (AUC) of cyclosporine by 10%, which was not considered clinically significant.(8) In a study in 21 renal transplant patients, cyclosporine increased atorvastatin levels by 6.4-fold when compared to historical controls. The AUC of cyclosporine decreased by 9.5%.(9) Concurrent administration of atorvastatin (10 mg) and cyclosporine (5.2 mg/kg/day) increased atorvastatin AUC and Cmax by 8.7-fold and 10.7-fold, respectively.(1) In a study in 33 renal patients, subjects were randomized to receive either atorvastatin or cerivastatin. In the cerivastatin group, there were no significant effects on cyclosporine levels. In the atorvastatin group, 4 of 10 subjects had changes in cyclosporine trough levels of 25% or more.(10) In a study, administration of cerivastatin (0.2 mg) in 12 renal transplant patients receiving cyclosporine was compared to 12 healthy control subjects not receiving cyclosporine. Plasma concentration of cerivastatin and its metabolites increased 3-fold to 5-fold.(11) In a study, administration of pravastatin in 11 heart transplant patients receiving cyclosporine was compared to 8 control subjects not receiving cyclosporine. Pravastatin AUC and Cmax were 7-8-fold and 12-fold higher, respectively, in subjects taking cyclosporine.(12) In a double-blind, randomized, cross-over study in 44 renal transplant patients, neither lovastatin nor pravastatin affected cyclosporine levels. Pravastatin levels after 1 day and after 28 days of concurrent therapy were 5-fold higher than historical controls. Lovastatin levels accumulated over the course of the study and by Day 28 were 20-fold higher than historical controls.(13) In a study in 31 renal transplant patients, neither pravastatin nor simvastatin affected cyclosporine levels.(14) In contrast, in a study in 44 heart transplant subjects, cyclosporine clearance was increased following the addition of simvastatin.(15) Several studies have found no effect from fluvastatin on cyclosporine pharmacokinetics.(16-20) One of these also noted no affects of cyclosporine on fluvastatin levels.(15) In contrast, a study that compared the administration of fluvastatin in 10 heart transplant to 10 healthy control subjects found that fluvastatin AUC and Cmax were 2.55-fold and 3.10-fold higher than in control subjects.(21) In an open-label study in 10 heart transplant patients, concurrent cyclosporine increased rosuvastatin AUC and Cmax by 7.1-fold and 10.6-fold, respectively, when compared to historical controls. There were no effects on cyclosporine levels.(22) Rhabdomyolysis has been reported with concurrent cyclosporine and atorvastatin,(23,24) cerivastatin,(25) and lovastatin.(26-30) In a PKPB model, concurrent use of atorvastatin (10 mg daily) with cyclosporine (125 mg daily for 2 months) increased the simulated Cmax ratio and AUC ratio of atorvastatin by 6.85 and 3.92, respectively.(31)	CYCLOSPORINE, CYCLOSPORINE MODIFIED, GENGRAF, NEORAL, SANDIMMUNE
HMG-CoA Reductase Inhibitors/Niacin (Greater Than or Equal To 250 mg) SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Unknown. CLINICAL EFFECTS: Myopathy and rhabdomyolysis (muscle aches, tenderness, and weakness) have been associated with concomitant administration of HMG-CoA reductase inhibitors and niacin. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on rosuvastatin with ABCG2 polymorphisms leading to decreased or poor BCRP transporter function may have increased rosuvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: The benefit of further alterations in lipid levels with combined use of statins and lipid-lowering dosages of niacin (<= 1000 mg/day) should be carefully weighed against the potential risks.(1-10) The US manufacturer of simvastatin states that dosages of niacin should not exceed 1000 mg daily in patients of Chinese descent.(6) DISCUSSION: The risk of myopathy is increased during concurrent use of HMG-CoA reductase inhibitors and niacin.(1-10) Concomitant administration of niacin with the immediate release formulation of fluvastatin had no effect on fluvastatin pharmacokinetics. Myopathy was not observed in a trial of concurrent fluvastatin and niacin in 74 patients. Concurrent fluvastatin and niacin results in additive effects on total cholesterol and LDL cholesterol.(9) In uncontrolled studies, most subjects who developed myopathy while on lovastatin were also taking cyclosporine, gemfibrozil, or niacin.(1) However, a systematic review showed comparable rates of adverse event reports (AERs) including serious adverse events, hepatotoxicity, or rhabdomyolysis for the combination of lovastatin with niacin-extended release (ER) pill relative to either agent alone or to other statins. Therefore, these results did not support a clinically significant adverse drug interaction between niacin-ER and statins.(14) In clinical trials involving small numbers of patients, no myopathy was reported with concurrent pravastatin and niacin.(10) There are case reports of myopathy during concurrent lovastatin and niacin.(2,11,12) Interim HPS2 results showed a higher rate of myopathy in patients of Chinese descent (0.43%) when compared to patients of non-Chinese descent (0.03%) in patients taking simvastatin (40 mg) with cholesterol-lowering doses of niacin.(7) Kosoglou suggests that there is a small pharmacokinetic drug interaction between ER niacin and ezetimibe/simvastatin but is not clinically significant.(15) However, the HPS2-THRIVE showed a significant four-fold excess risk of myopathy with the addition of ER niacin 2g plus laropiprant 40mg daily (ERN/LRPT) to simvastatin 40mg daily (with or without ezetimibe 10mg daily). This additional risk is particularly prevalent among Chinese descent versus European descent.(16) The AIM-HIGH trial randomized 3414 patients to receive niacin extended-release 1500-2000 mg per day or placebo in addition to current therapy of simvastatin 40-80 mg per day and ezetimibe 10 mg per day if needed to achieve a goal LDL of 40-80 mg/dL. Patients were followed for a mean of 3 years. The primary efficacy endpoint of composite of the first event of death from coronary heart disease, nonfatal myocardial infarction, ischemic stroke, hospitalization (greater than 23 hours) for an acute coronary syndrome, or symptom-driven coronary or cerebral vascularization, occurred in 16.4% of patients in the niacin group and 16.2% of patients in the placebo group (p=0.80).(17) The HPS2-THRIVE trial randomized 25,673 patients to receive extended-release niacin 2000 mg with laropiprant 40 mg per day or placebo in addition to current therapy of simvastatin 40 mg per day. Patients were followed for a median of 3.9 years. The primary efficacy endpoint of first major vascular event, defined as a major coronary event (nonfatal myocardial infarction or death from coronary causes), stroke of any type, or coronary or noncoronary vascularization, occurred in 13.2% of patients in the niacin-laropiprant group and 13.7% of patients in the placebo group (p=0.29).(18) A post-hoc analysis of the AIM-HIGH trial showed significant lowering of triglycerides (59 mg/dL) in the extended-release niacin (ERN) group compared to the placebo group (20mg/dL). High density lipoprotein levels showed improvement in the ERN group compared to the placebo (11.3mg/dL vs. 4.7 mg/dL, respectively). The incidence of cardiovascular disease events was similar in both groups. However, all-cause mortality was significantly higher in the ERN group (15.4%) versus the control group (9.2%).(19) A meta-analysis investigating the effects of niacin for primary and secondary prevention of cardiovascular events suggests that niacin does not reduce mortality or rates of myocardial infarctions or strokes. Increased side effects are reported with niacin. Benefits from niacin therapy in the prevention of cardiovascular disease events are unlikely.(20) The AIM HIGH trial investigated the effects of ERN added to simvastatin/ezetimibe on glucose and insulin values. ERN increased fasting glucose from baseline to 1 year in patients with normal (7.9 vs 4.3 mg/dL, respectively) and impaired fasting glucose (4.1 vs 1.4 mg/dL, respectively). There was an increased risk of progressing from normal to impaired fasting glucose in the ERN (58.6% cases) versus placebo (41.5% cases).(21) One or more of the drug pairs linked to this monograph have been included in a list of interactions that could be considered for classification as "non-interruptive" in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	NIACIN, NIACIN ER, NIACOR, NICOTINIC ACID
Lovastatin; Simvastatin/Conivaptan SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Conivaptan is a moderate CYP3A4 inhibitor and may inhibit the metabolism of lovastatin(1,2) and simvastatin(2,3) via CYP3A4. CLINICAL EFFECTS: Concurrent use of conivaptan may result in increased levels of lovastatin(1,2) or simvastatin,(2,3) which may lead to increased clinical effects and toxicity, including rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Concurrent use of lovastatin(1) or simvastatin(3) with inhibitors of CYP3A4 may increase the risk of myopathy. The manufacturer of conivaptan recommends avoiding concurrent use of drugs primarily metabolized by CYP3A4.(2) Therapy with lovastatin and simvastatin may be initiated no sooner than 1 week after the infusion of conivaptan is completed.(2) DISCUSSION: Conivaptan is a moderate inhibitor of CYP3A4. In an evaluation of the combination of intravenous conivaptan (30 mg) and simvastatin, the area-under-curve (AUC) of simvastatin was increased 3-fold. Two cases of rhabdomyolysis occurred in patients who were also receiving a CYP3A4 metabolized HMG-CoA reductase inhibitor.(3)	CONIVAPTAN-D5W, VAPRISOL-5% DEXTROSE
HMG-CoA Reductase Inhibitors/Daptomycin SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: The exact mechanism is unknown but may involve additive or synergistic effects on skeletal muscle. CLINICAL EFFECTS: Concurrent use of HMG-CoA reductase inhibitors and daptomycin can result in elevated creatinine phosphokinase (CPK) levels and skeletal muscle effects.(1) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on rosuvastatin with ABCG2 polymorphisms leading to decreased or poor BCRP transporter function may have increased rosuvastatin concentrations and risk of myopathy. Patients on fluvastatin who are CYP2C9 intermediate or poor metabolizers may have increased fluvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: The manufacturer of daptomycin recommends considering suspending HMG-CoA reductase inhibitor therapy in patients receiving daptomycin. CPK levels should be monitored more frequently than the weekly standard frequency in patients who have recently received HMG-CoA reductase therapy or in whom concurrent therapy is warranted. Closely monitor patients for the development of muscle pain and/or weakness.(1) DISCUSSION: In the Phase 3 Staphylococcus aureus bacteremia/endocarditis trial, 5 of 22 patients who received prior or concurrent HMG Co-A reductase inhibitor therapy developed CPK elevations greater than 500 U/L. At a dose of 6 mg/kg of daptomycin, a total of 11 patients developed CPK elevations greater than 500 U/L. Of these, 4 had prior or concurrent HMG Co-A reductase therapy. Rhabdomyolysis in patients treated concurrently with HMG Co-A reductase inhibitors has been reported in post-marketing experience.(1) In 20 healthy subjects, concurrent simvastatin (40 mg daily) and daptomycin (4 mg/kg daily) was not associated with a higher incidence of adverse effects when compared to 10 subjects receiving placebo.(1)	DAPTOMYCIN, DAPTOMYCIN-0.9% NACL
Selected HMG-CoA Reductase Inhibitors/Stiripentol SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Stiripentol may inhibit the metabolism of some HMG-CoA reductase inhibitors by CYP3A4.(1) CLINICAL EFFECTS: Concurrent use of stiripentol may result in elevated levels of HMG-CoA reductase inhibitors that are metabolized by CYP3A4, which may result in rhabdomyolysis.(1) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on rosuvastatin with ABCG2 polymorphisms leading to decreased or poor BCRP transporter function may have increased rosuvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: The UK manufacturer of stiripentol states that concurrent use of HMG-CoA reductase inhibitors metabolized by CYP3A4 should d be avoided unless strictly necessary.(1) DISCUSSION: Stiripentol has been shown to inhibit CYP3A4.(1)	DIACOMIT
Atorvastatin (> 40mg); Lovastatin; Simvastatin/Ciprofloxacin SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Ciprofloxacin may inhibit the metabolism of atorvastatin, lovastatin, and simvastatin by CYP3A4.(1) CLINICAL EFFECTS: Concurrent use of ciprofloxacin may result in elevated levels of atorvastatin, lovastatin, and simvastatin which could result in rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: For patients receiving atorvastatin (especially high doses), lovastatin, or simvastatin, consider holding statin therapy for the duration of ciprofloxacin therapy. If atorvastatin is used with ciprofloxacin, consider limiting the dose of atorvastatin to less than or equal to 40 mg daily for the duration of ciprofloxacin therapy. Monitor patient for statin-associated myopathy. DISCUSSION: A specific interaction study between atorvastatin and ciprofloxacin has not been performed. Rhabdomyolysis has been reported with concurrent ciprofloxacin and simvastatin.(3-5)	CIPRO, CIPROFLOXACIN, CIPROFLOXACIN HCL, CIPROFLOXACIN-D5W
Selected Sensitive CYP3A4 Substrates/Oral Lefamulin SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Lefamulin is considered a moderate inhibitor of CYP3A4. FDA defines a moderate inhibitor as a drug which increases the area-under-curve (AUC) of a sensitive substrate by 2- to 5-fold.(1,4) CLINICAL EFFECTS: Concurrent use of oral lefamulin may lead to increased serum levels and adverse effects of drugs sensitive to inhibition of the CYP3A4 pathway.(1) PREDISPOSING FACTORS: With darifenacin, the risk of anticholinergic toxicities including cognitive decline, delirium, falls and fractures is increased in geriatric patients using more than one medicine with anticholinergic properties.(5) PATIENT MANAGEMENT: If oral lefamulin must be coadministered with a sensitive CYP3A4 substrate, it is recommended to closely monitor for adverse effects of the CYP3A4 substrate.(1) Drug-specific recommendations: The manufacturer of abemaciclib recommends monitoring for adverse reactions and considering a dose reduction of abemaciclib in 50 mg decrements as detailed in prescribing information (based on starting dose, previous dose reductions, and combination or monotherapy use) with concurrent use of moderate CYP3A4 inhibitors.(2) The US manufacturer of sirolimus protein-bound injection (Fyarro) states a dose reduction to 56 mg/m2 is recommended when used concurrently with moderate or weak CYP3A4 inhibitors. Concurrent use with strong CYP3A4 inhibitors should be avoided.(3) DISCUSSION: In a study, oral lefamulin tablets administered concomitantly with and at 2 or 4 hours before oral midazolam (a CYP3A4 substrate) increased the area-under-curve (AUC) and maximum concentration (Cmax) of midazolam by 200% and 100%, respectively. No clinically significant effect on midazolam pharmacokinetics was observed when co-administered with lefamulin injection.(1) Sensitive CYP3A4 substrates linked to this monograph include: abemaciclib, acalabrutinib, alfentanil, alprazolam, atorvastatin, brotizolam, budesonide, buspirone, cobimetinib, darifenacin, ebastine, eletriptan, elvitegravir, everolimus, lovastatin, lurasidone, maraviroc, midazolam, nisoldipine, paritaprevir, sildenafil, simvastatin, sirolimus, ticagrelor, triazolam, and ulipristal.(1,4,6)	XENLETA
Selected CYP3A4 Substrates/Crizotinib SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Crizotinib inhibits CYP3A4, and thus may inhibit the metabolism of agents processed by this isoenzyme.(1) CLINICAL EFFECTS: Concurrent use of crizotinib with drugs primarily metabolized by CYP3A4 may lead to elevated drug levels and increased side effects of these agents.(1) Drugs with a narrow therapeutic window that are metabolized by this isoenzyme include: abemaciclib, cisapride, cyclosporine, felodipine, hydroquinidine, lovastatin, midazolam, nisoldipine, quinidine, simvastatin, and sirolimus.(1-2) PREDISPOSING FACTORS: Greater risk for adverse events would be expected for drugs with a narrow therapeutic window, or for drugs especially sensitive to CYP3A4 inhibition. PATIENT MANAGEMENT: Avoid coadministration of sensitive CYP3A4 substrates with a narrow therapeutic index. If concomitant use is unavoidable, dosage adjustment of the CYP3A4 substrate should be considered when initiating or discontinuing crizotinib.(1) Patients maintained on crizotinib may need lower initial doses of the CYP3A4 substrate. Monitor patients receiving concurrent therapy for adverse effects. Drug-specific recommendations: The manufacturer of abemaciclib recommends monitoring for adverse reactions and considering a dose reduction of abemaciclib in 50 mg decrements as detailed in prescribing information (based on starting dose, previous dose reductions, and combination or monotherapy use) with concurrent use of moderate CYP3A4 inhibitors.(3) The US manufacturer of sirolimus protein-bound injection (Fyarro) states a dose reduction to 56 mg/m2 is recommended when used concurrently with moderate or weak CYP3A4 inhibitors. Concurrent use with strong CYP3A4 inhibitors should be avoided.(4) DISCUSSION: Crizotinib (250 mg twice daily for 28 days) increased the area-under-curve (AUC) of oral midazolam by 3.7-fold.(1) Thus, crizotinib is expected to increase levels of abemaciclib, cisapride, cyclosporine, felodipine, hydroquinidine, lovastatin, midazolam, nisoldipine, quinidine, simvastatin, and sirolimus.	XALKORI
Selected Sensitive CYP3A4 Substrates/Nirogacestat SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Nirogacestat is a moderate inhibitor of CYP3A4 and may decrease the metabolism of drugs metabolized by the CYP3A4 enzyme.(1) CLINICAL EFFECTS: Concurrent use of nirogacestat may lead to increased serum levels and adverse effects of drugs sensitive to inhibition of the CYP3A4 pathway.(1-3) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Avoid concomitant nirogacestat use with CYP3A4 substrates where minimal concentration changes may lead to serious adverse reactions.(1) Concurrent use of nirogacestat with alfentanil should be avoided. If concurrent use is warranted, limit the dosages and duration of alfentanil to the minimum possible while achieving the desired clinical effect. If starting a CYP3A4 inhibitor with an opioid, consider a dosage reduction of the opioid. If an opioid is indicated in a patient already taking a CYP3A4 inhibitor, prescribe a lower dose of the opioid and titrate based upon clinical response.(2) Concurrent use of nirogacestat with cobimetinib should be avoided. For patients taking cobimetinib 60 mg daily, if concurrent short-term use (14 days or less) of a moderate CYP3A4 inhibitor cannot be avoided, reduce cobimetinib dose to 20 mg daily. After discontinuation of the moderate CYP3A4 inhibitor, resume the previous 60 mg dose. Patients who are taking cobimetinib 40 mg or 20 mg daily should not receive a moderate or strong CYP3A4 inhibitor.(3) DISCUSSION: Midazolam (CYP3A4 substrate) maximum concentration (Cmax) is predicted to increase by 1.77-fold and area-under-curve (AUC) by 2.07-fold following concomitant use with multiple doses of nirogacestat (150 mg twice daily).(1) CYP3A4 sensitive substrates linked to this monograph include: alfentanil, cobimetinib, fentanyl, lovastatin, and simvastatin.(4,5)	OGSIVEO
HMG-CoA Reductase Inhibitors/Belumosudil SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: HMG-CoA reductase inhibitors are substrates of the BCRP and OATP1B1 transporters.(1-7) Belumosudil may increase the absorption and decrease the hepatic uptake and metabolism of HMG-CoA reductase inhibitors by inhibiting OATP1B1 and BCRP transporters.(7,8) CLINICAL EFFECTS: Simultaneous use of belumosudil may result in increased levels and side effects from HMG-CoA reductase inhibitors, including rhabdomyolysis.(8) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on rosuvastatin with ABCG2 polymorphisms leading to decreased or poor BCRP transporter function may have increased rosuvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: The US and Australian manufacturers of belumosudil state that concurrent use of BCRP and OATP1B1 substrates for which minimal concentration changes may lead to serious toxicities should be avoided.(8-9) If coadministration cannot be avoided, lower the dose of the HMG-CoA reductase inhibitor according to its labeling recommendations.(9) DISCUSSION: Coadministration of belumosudil increased rosuvastatin (OATP1B1 and BCRP substrate) maximum concentration (Cmax) and area-under-curve (AUC) by 3.6- and 4.6-fold, respectively.(8)	REZUROCK

There are 21 moderate interactions. The clinician should assess the patient’s characteristics and take action as needed. Actions required for moderate interactions include, but are not limited to, discontinuing one or both agents, adjusting dosage, altering administration.

Drug Interaction	Drug Names
Selected Anticoagulants (Vitamin K antagonists)/Selected HMG-CoA Reductase Inhibitors SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The exact mechanism of this interaction is unknown. The HMG-CoA reductase inhibitor may inhibit the hepatic hydroxylation of warfarin. The HMG-CoA reductase inhibitors, which are highly plasma protein bound, may displace warfarin from its binding site. CLINICAL EFFECTS: Increased hypoprothrombinemic effects of warfarin may result in a risk for bleeding. PREDISPOSING FACTORS: Risk for bleeding episodes may be greater in patients with disease-associated bleeding risk (e.g. thrombocytopenia). Drug risk factors include concurrent use of multiple drugs which inhibit warfarin metabolism, or have an inherent risk for bleeding (e.g. NSAIDs). PATIENT MANAGEMENT: Patients should be monitored for changes in prothrombin time when a HMG Co-A reductase inhibitor is added to or discontinued from warfarin therapy, or if the dosage of the HMG Co-A reductase inhibitor is adjusted. If concurrent therapy is warranted, monitor patients receiving concurrent therapy for signs of blood loss, including decreased hemoglobin, hematocrit, fecal occult blood, and/or decreased blood pressure and promptly evaluate patients with any symptoms. Discontinue anticoagulation in patients with active pathologic bleeding. Instruct patients to report any signs and symptoms of bleeding, such as unusual bleeding from the gums or nose; unusual bruising; red or black, tarry stools; red, pink or dark brown urine; acute abdominal or joint pain and/or swelling. The time of highest risk for a coumarin-type drug interaction is when the precipitant drug is initiated or discontinued. Contact the prescriber before initiating, altering the dose or discontinuing either drug. DISCUSSION: Case reports in the medical literature and to the manufacturer have documented an interaction between lovastatin and warfarin. A case report has documented an interaction between pravastatin and fluindione (an orally administered indanedione anticoagulant), suggesting that pravastatin could also interact similarly with warfarin. Information concerning a potential interaction with simvastatin is conflicting. A case report has documented an interaction between simvastatin and acenocoumarol while another case report showed no interaction with warfarin. One group of authors reported three case reports of increased international normalized ratios (INRs) following the addition of fluvastatin to warfarin therapy. The addition of rosuvastatin to patients stabilized on warfarin resulted in clinically significant changes in INR. A cohort study identified concurrent use of warfarin with atorvastatin, rosuvastatin, and simvastatin. Concurrent use of warfarin and simvastatin increased INR from 2.4 to 2.71, with INRs peaking at 4 weeks after statin initiation (mean change 0.32 (95% CI 0.25-0.38) and median change 0.2 (IQR -0.3-0.8)). Concurrent use of warfarin with atorvastatin and rosuvastatin increased INR from 2.42 to 2.69 with a mean change of 0.27 (95% CI 0.12-0.42) and from 2.31 to 2.61 with a mean change of 0.3 (95% CI -0.09-0.69), respectively. One or more of the drug pairs linked to this monograph have been included in a list of interactions that could be considered for classification as "non-interruptive" in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	ANISINDIONE, JANTOVEN, WARFARIN SODIUM
Lovastatin; Simvastatin (Greater Than 20 mg)/Azithromycin SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The exact mechanism is unknown. Other macrolides (e.g. erythromycin, clarithromycin) which are moderate or strong inhibitors of CYP3A4 have been shown to increase levels of the HMG-CoA reductase inhibitors (statins); however, azithromycin is a much weaker inhibitor of this isoenzyme.(1,2) FDA has classified lovastatin and simvastatin as sensitive substrates at CYP3A4. Sensitive substrates are drugs whose plasma exposure (area-under-curve or AUC) has been shown to increase > or = 5-fold when co-administered with a strong inhibitor of a specific enzyme. A weak inhibitor increases AUC of a sensitive substrate > 1.25-fold but < 2-fold. Azithromycin is classified as a weak inhibitor of CYP3A4.(1) CLINICAL EFFECTS: Concurrent therapy may result in rhabdomyolysis. Symptoms of rhabdomyolysis include muscle pain, tenderness, weakness, elevated creatine kinase levels, and reddish-brown, heme positive urine. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: In patients with one or more predisposing risk factors for statin associated myopathy it may be prudent to suspend lovastatin or simvastatin during azithromycin therapy. Rhabdomyolysis has been reported with the combination of lovastatin or simvastatin and azithromycin. If temporary discontinuation of the HMG-CoA reductase inhibitor is not possible, patients should be instructed to report any unexplained muscle pain, tenderness, weakness, or discoloration of the urine.(3,4) DISCUSSION: A systematic screening of the World Health Organization Adverse Drug Reaction database found case reports suggestive of an interaction between azithromycin and statins. The authors found 5 lovastatin and 20 simvastatin case reports and used a disproportionality measure which found report rates were 1.88 and 3.55 times higher respectively than predicted.(5) A case report describes rhabdomyolysis in a 73 year old man with chronic renal impairment, diabetes, hypertension, gout and hyperlipidemia with regular medications which included allopurinol 100 mg daily, prednisone 5 mg daily, labetalol, bumetanide, insulin, amlodipine (a weak CYP3A4 inhibitor) and simvastatin 80 mg daily. Azithromycin 500 mg X1 day, then 250 mg daily X4 days was prescribed for acute bronchitis. One week later patient was admitted to the hospital with a 5 day history of severe weakness and pain in his arms and legs. He developed acute renal insufficiency (creatinine baseline 1.7 increased to 3.8) and rhabdomyolysis (CPK 11,240 units/L). Treatment led to resolution of symptoms in 3 weeks. Simvastatin was restarted at 40 mg daily and subsequently increased back to 80 mg daily without recurrence of symptoms.(6) A case report describes a 56 year old man receiving buspirone, nefazodone (a strong CYP3A4 inhibitor), lisinopril, aspirin and simvastatin 80 mg daily without reported problems. Azithromycin and fexofenadine were prescribed for sinusitis. He was admitted to the hospital 5 days later with a 2-3 day history of generalized back,leg, and flank pain along with coca-cola colored urine. AST, ALT and creatine kinase were 2,324, 700, and 10,738 respectively. Patient was discharged after 8 days. His simvastatin was not resumed.(7) An article reported two cases of rhabdomyolysis, one following the addition of clarithromycin to lovastatin therapy and the other following the addition of azithromycin to lovastatin therapy.(8)	AZITHROMYCIN, ZITHROMAX, ZITHROMAX TRI-PAK
Atorvastatin; Lovastatin (Less than or Equal To 40 mg); Simvastatin (Less Than or Equal To 20 mg)/Amiodarone SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Amiodarone may inhibit the metabolism of atorvastatin,(1) lovastatin(2) and simvastatin(3-6) by CYP3A4. CLINICAL EFFECTS: Concurrent use of amiodarone(2) with certain HMG CoA reductase inhibitors may increase the risk of rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Use the lowest dose of atorvastatin necessary in patients receiving concurrent amiodarone therapy.(1) The US manufacturers of amiodarone(1) and lovastatin(2) recommend that the dose of lovastatin not exceed 40 mg daily in patients receiving concurrent amiodarone unless the potential benefit outweighs the increased risk of myopathy. The US manufacturers of amiodarone(1) and simvastatin(3-6) recommend that the dose of simvastatin not exceed 20 mg daily in patients receiving concurrent amiodarone unless the potential benefit outweighs the increased risk of myopathy. DISCUSSION: Rhabdomyolysis has been reported with concurrent amiodarone and atorvastatin and simvastatin.(1) In a case report, a 63 year-old male developed rhabdomyolysis 4 weeks after starting simvastatin therapy and 2 weeks after starting amiodarone.(7) In a clinical trial, myopathy was been reported in 6% of patients receiving concurrent simvastatin (80 mg) and amiodarone.(3) In a randomized, cross-over study in 12 healthy subjects, subjects received amiodarone (400 mg daily) with either simvastatin (40 mg) or pravastatin (40 mg). Amiodarone increased simvastatin area-under-curve (AUC) by 73%, maximum concentration (Cmax) by 100%, and half-life by 48%. There were no significant effects on pravastatin pharmacokinetics.(8) In a case report, a 72 year-old male developed rhabdomyolysis 10 weeks after starting amiodarone (200 mg daily) therapy and 6 weeks after starting simvastatin (80 mg daily).(9) In a retrospective review of patients receiving amiodarone, the rate of adverse events in combination with a statin was 1.0%, 0.7%, and 0.4% for simvastatin, atorvastatin, and pravastatin, respectively. The most commonly reported adverse effect was muscle soreness, which was present in 77% of reports and was found more often in older male patients.(10)	AMIODARONE HCL, AMIODARONE HCL-D5W, NEXTERONE, PACERONE
Lovastatin; Simvastatin/Imatinib SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Imatinib may inhibit the metabolism of lovastatin and simvastatin by CYP3A4.(1) CLINICAL EFFECTS: Concurrent use of imatinib may result in elevated levels and side effects of lovastatin or simvastatin, including rhabdomyolysis.(1,2) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Patients receiving concurrent therapy with imatinib and lovastatin or simvastatin should be carefully monitored for adverse effects, including rhabdomyolysis. Consider reducing the dosage of the HMG Co-A reductase inhibitor or using an alternative agent such as fluvastatin or pravastatin in patients receiving concurrent imatinib therapy. Instruct patients to report any signs of myopathy. DISCUSSION: In a study in 20 patients with chronic myeloid leukemia, subjects received a single dose of simvastatin (40 mg) alone and after 7 days of imatinib (400 mg daily). Imatinib increased the area-under-curve (AUC) and maximum concentration (Cmax) of simvastatin by 3.5-fold and by 2-fold, respectively. Simvastatin total body clearance decreased by 70%.(2)	GLEEVEC, IMATINIB MESYLATE, IMKELDI
Lovastatin (Less than or Equal To 20 mg)/Danazol SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Danazol may inhibit the metabolism of lovastatin by CYP3A4.(1) CLINICAL EFFECTS: Concurrent use of danazol may result in elevated levels of lovastatin and toxicity, including rhabdomyolysis.(1) One case report also states pancreatitis may possibly be caused by the lovastatin danazol interaction.(4) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The US manufacturer of lovastatin states that in patients receiving danazol, lovastatin should be started at a dose of 10 mg daily and that the dose of lovastatin should not exceed 20 mg daily. The benefits of concurrent use should be carefully weighed against the risk of the combination.(1) DISCUSSION: Concurrent use of danazol with lovastatin increases the risk of rhabdomyolysis.(1) Rhabdomyolysis(2-4) and pancreatitis(2) have been reported with concurrent lovastatin and danazol.	DANAZOL
Simvastatin (Less than or Equal To 20 mg); Lovastatin/Ranolazine SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Ranolazine may inhibit the metabolism of lovastatin(3) and simvastatin by CYP3A4.(1,2,4-6) CLINICAL EFFECTS: Concurrent ranolazine may result in elevated levels of lovastatin(3) and simvastatin,(1,2,4-6) which may result in myopathy and rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Do not exceed a dosage of 20 mg daily of simvastatin in patients receiving concurrent therapy with ranolazine.(1,2,4-6) Consider a reduction of lovastatin dose with concurrent ranolazine. DISCUSSION: In healthy subjects, ranolazine (1000 mg twice daily) increased plasma levels of simvastatin (80 mg daily) and its active metabolite each by 2-fold.(1) In healthy subjects, simvastatin (20 mg daily) had no effect on ranolazine levels.(1) In a study in 17 healthy volunteers, simvastatin (80 mg daily) did not have a significant effect on ranolazine sustained release (SR, 1750 mg initial dose followed by 1000 mg twice daily) pharmacokinetics with the mean area under the curve (AUC), maximum concentration (Cmax), and minimum concentration (Cmin) being within 80% to 125%. In contrast, ranolazine SR increased the Cmax of simvastatin lactone, simvastatin acid, and HMG-CoA reductase inhibitor activity by 2-fold with the corresponding AUC increases in the range of 40% to 60%.(2,7) In a case report, a patient had been maintained on simvastatin for 12 years, one of which with concurrent cyclosporine. Two months after the addition of carvedilol, diltiazem, and ranolazine, the patient developed rhabdomyolysis.(8) In a case report, a patient had been maintained on a stable dose of simvastatin (80 mg). Ten days after the addition of ranolazine (500 mg extended release) was added to the patient's medication regimen, the patient developed rhabdomyolysis.(9)	ASPRUZYO SPRINKLE, RANOLAZINE ER
Selected HMG-CoA Reductase Inhibitors/Digoxin SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The exact mechanism is unknown, but may involve competitive inhibition of P-glycoproteins.(1) CLINICAL EFFECTS: Concurrent use of digoxin and a HMG-CoA reductase inhibitor may result in rhabdomyolysis.(1) Concurrent use of atorvastatin(2) or simvastatin(3) may result in increased levels of digoxin. Symptoms of digoxin toxicity can include anorexia, nausea, vomiting, headache, fatigue, malaise, drowsiness, generalized muscle weakness, disorientation, hallucinations, visual disturbances, and arrhythmias. PREDISPOSING FACTORS: Low body weight, advanced age, impaired renal function, hypokalemia, hypercalcemia, and/or hypomagnesemia may increase the risk of digoxin toxicity. The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on fluvastatin who are CYP2C9 intermediate or poor metabolizers may have increased fluvastatin concentrations and risk of myopathy. Patients on rosuvastatin with ABCG2 polymorphisms leading to decreased or poor BCRP transporter function may have increased rosuvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: Patients receiving concurrent therapy with digoxin and a HMG-CoA reductase inhibitor should be closely monitored for rhabdomyolysis and instructed to report any symptoms of myopathy.(1) Patients receiving concurrent atorvastatin(2) or simvastatin(3) should be monitored for elevated digoxin levels and instructed to report any symptoms of digoxin toxicity. The dosage of digoxin may need to be decreased by 15-30% or the frequency of administration may be reduced.(4) DISCUSSION: A retrospective review examined all reports of HMG-CoA reductase inhibitor-induced rhabdomyolysis submitted to the Food and Drug Administration (FDA) between November, 1997 and March, 2000. There were 601 unique cases of rhabdomyolysis, with 26 cases involving concurrent use of digoxin. There were 5 reports involving concurrent atorvastatin/digoxin, 7 reports with cerivastatin/digoxin, 1 report with fluvastatin/digoxin, 2 with lovastatin/digoxin, 2 with pravastatin/digoxin, and 9 with simvastatin/digoxin.(5) Concurrent use of atorvastatin (80 mg daily for 14 days) with digoxin (0.25mg daily for 20 days) increased digoxin maximum concentration (Cmax) and area-under-curve (AUC) by 20% and 15%, respectively.(2) In a study in 18 subjects, concurrent fluvastatin had no effect on digoxin AUC but digoxin Cmax increased 11%.(6) Concurrent use of lovastatin had no effect on digoxin levels.(7) In a study in 18 subjects, concurrent pravastatin had no effect on digoxin levels.(8) Concurrent use of rosuvastatin had no effect on digoxin levels.(9) Concurrent simvastatin slightly increased the concentration of a single dose of digoxin by less than 0.3 ng/ml.(3)	DIGITEK, DIGOXIN, DIGOXIN MICRONIZED, LANOXIN, LANOXIN PEDIATRIC
Colchicine/HMG-CoA Reductase Inhibitors SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Colchicine and HMG-CoA Reductase Inhibitors(statins) each have a risk for myopathy and rhabdomyolysis; these risks may be additive.(1-3) CLINICAL EFFECTS: Concurrent use of the statin drugs and colchicine may increase the risk of myopathy or rhabdomyolysis, which is characterized by progressive muscle weakness and pain in the presence of a normal neurological exam.(1-8) PREDISPOSING FACTORS: Long term use of colchicine, generally from weeks to months in duration of use, may predispose patients to myopathy or rhabdomyolysis.(1) The risk for myopathy or rhabdomyolysis may also be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on fluvastatin who are CYP2C9 intermediate or poor metabolizers may have increased fluvastatin concentrations and risk of myopathy. Patients on rosuvastatin with ABCG2 polymorphisms leading to decreased or poor BCRP transporter function may have increased rosuvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: Patients receiving concurrent therapy with colchicine and HMG-CoA reductase inhibitors should be carefully monitored for myopathy or rhabdomyolysis. Patients should be instructed to report any symptoms of myopathy such as unexplained muscle aches, tenderness, weakness, or the onset of tingling/numbness in the fingers or toes.(1-6) DISCUSSION: The development of myopathy and clinical rhabdomyolysis have been reported in several case reports with concurrent use of colchicine and atorvastatin,(4) fluvastatin,(5) pravastatin,(6) simvastatin(7,8), and rosuvastatin.(2) The incidence and frequency appear to increase in patients with mild to moderate renal insufficiency and length of colchicine therapy.	COLCHICINE, COLCRYS, GLOPERBA, LODOCO, MITIGARE, PROBENECID-COLCHICINE
Atorvastatin; Lovastatin (Less Than or Equal To 20 mg); Simvastatin (Less Than or Equal To 10 mg)/Verapamil SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Verapamil may inhibit the metabolism of lovastatin and simvastatin by CYP3A4.(1-6) Atorvastatin may inhibit the metabolism of verapamil by CYP3A4.(7) CLINICAL EFFECTS: Concurrent verapamil may result in elevated levels of lovastatin or simvastatin, which may result in rhabdomyolysis.(1-6) Concurrent atorvastatin may result in elevated levels of and clinical effects from verapamil.(7) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The manufacturer of lovastatin states that the dose of lovastatin should be started at a dose of 10 mg daily and that the dose of lovastatin should not exceed 20 mg daily in patients receiving concurrent therapy with verapamil.(2) The manufacturer of simvastatin recommends that the dose of simvastatin not exceed 10 mg daily in patients receiving concurrent therapy with verapamil unless the potential benefit outweighs the increased risk of myopathy.(3-6) Patients receiving concurrent atorvastatin should be monitored for increased effects of verapamil. Patients receiving concurrent therapy with verapamil with lovastatin or simvastatin should be monitored closely for adverse effects of the HMG-CoA reductase inhibitor, including rhabdomyolysis. The dosage of the HMG-CoA reductase inhibitor may need to be reduced or discontinued. Fluvastatin or pravastatin, HMG-CoA reductase inhibitors that are not metabolized by CYP3A4, may be alternatives to atorvastatin, lovastatin, and simvastatin in patients receiving verapamil. DISCUSSION: A study in 12 subjects examined the effects of pretreatment with verapamil (240 mg daily) for two days on a single dose of simvastatin (40 mg). Pretreatment with verapamil resulted in 2.6-fold and 4.6-fold increases in the Cmax and AUC of simvastatin, respectively. Pretreatment with verapamil also increased the Cmax and AUC of simvastatin acid 3.4-fold and 2.8-fold, respectively. There were no effects on the half-life or time to maximum concentration (Cmax) of simvastatin.(1) Administration of multiple doses of low-dose verapamil (10 mg) and simvastatin (80 mg) increased simvastatin exposure by 2.5-fold.(8) In an analysis of clinical trials involving 25,248 patients treated with simvastatin 20 to 80 mg, the incidence of myopathy was higher in patients receiving verapamil and simvastatin (4/635) than in patients taking simvastatin without a calcium channel blocker (13/21,224).(3,4) In a study in 12 healthy subjects, concurrent atorvastatin (40 mg) increased the AUC of verapamil (60 mg) by 42.8%.(7)	TRANDOLAPRIL-VERAPAMIL ER, VERAPAMIL ER, VERAPAMIL ER PM, VERAPAMIL HCL, VERAPAMIL SR
Simvastatin (Less Than or Equal To 10 mg); Lovastatin (Less Than or Equal To 20 mg)/Diltiazem (Less than or Equal To 240 mg) SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Diltiazem may inhibit the metabolism of lovastatin(1,2) and simvastatin(2-6) by CYP3A4. CLINICAL EFFECTS: Concurrent diltiazem may result in elevated levels of lovastatin(1,2) or simvastatin,(2-6) which may result in rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Do not use more than 20 mg of lovastatin(1) or more than 240 mg of diltiazem(2) in patients receiving concurrent therapy with these agents. Do not use more than 10 mg of simvastatin(2-6) or more than 240 mg of diltiazem(2) in patients receiving concurrent therapy with these agents. Patients receiving concurrent therapy with diltiazem should be monitored closely for adverse effects of the HMG-CoA reductase inhibitor, including rhabdomyolysis. The dosage of the HMG-CoA reductase inhibitor may need to be reduced or discontinued. Fluvastatin or pravastatin, HMG-CoA reductase inhibitors that are not metabolized by CYP3A4, may be alternatives to atorvastatin, lovastatin, and simvastatin in patients receiving diltiazem. DISCUSSION: In a four-way crossover study in ten subjects, subjects received single doses of lovastatin (20 mg) alone and following two weeks of diltiazem (120 mg twice daily) therapy and single doses of pravastatin (20 mg) alone and following two weeks of diltiazem therapy (120 mg twice daily). Concurrent administration of diltiazem increased lovastatin area-under-curve (AUC) and maximum concentration (Cmax) by 2.6-fold and 3.3-fold, respectively. The increase in lovastatin AUC ranged from 51% to 906%. There were no changes in lovastatin half-life. Concurrent administration of diltiazem had no effect on the AUC, Cmax, or half-life of pravastatin.(5,6) In a study, diltiazem (120 mg twice daily for 10 days) increased the AUC and Cmax of a single dose of simvastatin (80 mg on Day 10) by 3.1-fold and 2.88-fold, respectively. The AUC and Cmax of simvastatin acid increased by 2.69-fold and 2.69-fold, respectively.(3) In a study in Chinese subjects, concurrent diltiazem (60 mg TID) and simvastatin (20 mg daily) enhanced reduction of LDL levels by 1.66% when compared to simvastatin (20 mg alone).(7) In a study in 11 patients with hypercholesterolemia and hypertension, concurrent administration of diltiazem (90 mg daily) and simvastatin (5 mg daily) increased the Cmax and AUC of simvastatin by 97% and 99.5%, respectively, when compared to administration of simvastatin (5 mg daily) alone. Diltiazem Cmax and AUC decreased by 21% and 21%, respectively, when compared to the administration of diltiazem (90 mg) alone. Combination therapy lowered LDL levels by an additional 9% when compared to simvastatin monotherapy.(8) In a study in 10 healthy subjects, diltiazem (120 mg daily for 2 weeks) increased the Cmax and AUC of a single dose of simvastatin (20 mg) by 3.6-fold and 5-fold, respectively. The Cmax of simvastatin acid increased by 3.7-fold.(2,9) A daily dose of 480 mg of diltiazem is expected to increase simvastatin levels 8-fold.(2 In a retrospective review, patients who received simvastatin with concurrent diltiazem experienced a 33.3% reduction in cholesterol levels compared with 24.7% in patients receiving simvastatin without concurrent diltiazem.(10) There are several case reports of myopathy and rhabdomyolysis in patients receiving concurrent simvastatin and diltiazem.(11-16)	CARDIZEM, CARDIZEM CD, CARDIZEM LA, CARTIA XT, DILT-XR, DILTIAZEM 12HR ER, DILTIAZEM 24HR ER, DILTIAZEM 24HR ER (CD), DILTIAZEM 24HR ER (LA), DILTIAZEM 24HR ER (XR), DILTIAZEM HCL, DILTIAZEM HCL-0.7% NACL, DILTIAZEM HCL-0.9% NACL, DILTIAZEM HCL-NACL, DILTIAZEM-D5W, MATZIM LA, TIADYLT ER, TIAZAC
Atorvastatin; Lovastatin (Less than or Equal To 20 mg); Simvastatin (Less than or Equal To 10 mg)/Dronedarone SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Dronedarone may inhibit the metabolism of HMG CoA reductase inhibitors by CYP3A4 and P-glycoprotein.(1) CLINICAL EFFECTS: Concurrent use of dronedarone with certain HMG CoA reductase inhibitors may increase the risk of rhabdomyolysis.(1) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: When initiating lovastatin in a patient maintained on dronedarone, the starting dose of lovastatin should not exceed 10 mg. The dose of lovastatin not exceed 20 mg daily in patients receiving concurrent dronedarone unless the potential benefit outweighs the increased risk of myopathy.(2) Do not exceed 10 mg of simvastatin daily during concurrent therapy with dronedarone.(1,3) For other statins, the US manufacturer of dronedarone recommends following recommendations from the statin manufacturer regarding concurrent use of 3A4 inhibitors and states no dosage adjustment is needed with dosages of atorvastatin 40 mg daily or less.(1) Monitor patients receiving concurrent therapy for signs and symptoms of rhabdomyolysis. DISCUSSION: Concurrent dronedarone (400 mg BID for 14 days) and simvastatin (40 mg daily for 14 days) increased simvastatin maximum concentration (Cmax) and area-under-curve (AUC) and simvastatin acid by 3.75-fold and 3.9-fold, respectively. The Cmax and AUC of simvastatin acid increased by 2.14-fold and 1.96-fold, respectively.(1,3)	MULTAQ
Selected HMG Co-A Reductase Inhibitors/Fluconazole SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Fluconazole(1-2) may inhibit the metabolism of atorvastatin, lovastatin, and simvastatin by CYP3A4. Fluconazole may inhibit the metabolism of fluvastatin by CYP2C9.(3) CLINICAL EFFECTS: Concurrent use of fluconazole(1,2,4-6) or voriconazole(3) may result in elevated levels of atorvastatin, fluvastatin, lovastatin, and simvastatin and rhabdomyolysis. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on fluvastatin who are CYP2C9 intermediate or poor metabolizers may have increased fluvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: Do not use fluvastatin in doses greater than 20 mg twice daily in patients receiving fluconazole.(6) Concurrent use of fluconazole with atorvastatin, fluvastatin, lovastatin, or simvastatin should be approached with caution. Patients should be carefully monitored for and instructed to report any signs of myopathy. Adjustment of the statin dose may be required. DISCUSSION: In a study in 12 healthy subjects, pretreatment with fluconazole (400 mg Day 1, 200 mg/day on Days 2-4) increased fluvastatin area-under-curve (AUC) and maximum concentration (Cmax) by 84% and 44%, respectively.(3,5) Fluvastatin half-life increased by 80%.(3) There are four case reports of rhabdomyolysis following the addition of fluconazole to patients previously stabilized on simvastatin therapy(1,4,8,9) and one case report of rhabdomyolysis during concurrent fluconazole and atorvastatin.(6) In a randomized, double-blind, cross-over study in 14 healthy males, pretreatment with fluconazole (200 mg daily for 11 days) increased the AUC and Cmax of a single dose of rosuvastatin (80 mg on Day 8) by 14% and 9%, respectively. These changes were not considered clinically significant.(7) In a PKPB model, concurrent use of atorvastatin (40 mg daily) with fluconazole (400 mg daily for 5 days) increased the simulated Cmax ratio and AUC ratio of atorvastatin by 1.42 and 2.17, respectively, and increased the simulated Cmax ratio and AUC ratio of atorvastatin lactone by 2.94 and 3.82, respectively.(10) One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	DIFLUCAN, FLUCONAZOLE, FLUCONAZOLE-NACL
Lovastatin; Simvastatin (Less than or Equal To 40 mg)/Lomitapide SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Lomitapide inhibits the metabolism of lovastatin and simvastatin via CYP3A4.(1) CLINICAL EFFECTS: Concurrent use of lomitapide may result in elevated levels of lovastatin or simvastatin and an increased risk of myopathy, including rhabdomyolysis.(1) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The dose of simvastatin should be reduced 50% when used concurrently with lomitapide. The dosage of simvastatin should be limited to 20 mg daily in most patients. A dosage of 40 mg may be used in patients who previously tolerated a daily dose of simvastatin of 80 mg for at least one year.(1,2) Similar reductions should be considered for lovastatin.(1) DISCUSSION: Administration of lomitapide (60 mg daily for 7 days) increased the area-under-curve (AUC) and maximum concentration (Cmax) of a single dose of simvastatin (40 mg) by 99% and 102%, respectively. The AUC and Cmax of simvastatin acid increased by 71% and 57%, respectively.(1,2) Administration of lomitapide (10 mg daily for 7 days) increased the AUC and Cmax of a single dose of simvastatin (20 mg) by 62% and 65%, respectively. The AUC and Cmax of simvastatin acid increased by 39% and 35%, respectively.(1,2)	JUXTAPID
Selected HMG-CoA Reductase Inhibitors/Fenofibrate SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Unknown. CLINICAL EFFECTS: Concurrent administration of HMG-CoA reductase inhibitors and fibric acid derivatives has been associated with severe myopathy, rhabdomyolysis and acute renal failure. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on fluvastatin who are CYP2C9 intermediate or poor metabolizers may have increased fluvastatin concentrations and risk of myopathy. Patients on rosuvastatin with ABCG2 polymorphisms leading to decreased or poor BCRP transporter function may have increased rosuvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: When possible, avoid administration of these drugs concomitantly unless patients require aggressive therapy. Instruct patients to report any unexplained muscle pain, tenderness or weakness. If muscular symptoms develop, monitor serum creatine kinase levels and renal function. One or both agents may need to be discontinued. The American College of Cardiology and American Heart Association Guidelines state that fenofibrate may be considered concomitantly with a low- or moderate-intensity statin only if the benefits from atherosclerotic cardiovascular risk reduction or triglyceride lowering when triglycerides are greater than or equal to 500 mg/dL are judged to outweigh the potential risk for adverse effects.(20) The European Society of Cardiology and European Atherosclerosis Society recommend concomitant statin-fenofibrate therapy in patients with atherogenic combined dyslipidemia, especially patients with metabolic syndrome and/or diabetes.(21) The US manufacturer of fenofibrate states that concurrent therapy with HMG CO-A reductase inhibitors should be avoided unless the benefit of further decreases in lipid levels is likely to outweigh the increased risk. Fenofibrate may be preferred over gemfibrozil in patients who do require concurrent statin and fibrate therapy.(9) The manufacturer of pravastatin states that concurrent therapy should be avoided unless the benefits of combination therapy outweigh the risks.(6) The Canadian manufacturer of rosuvastatin states that concurrent therapy with other fibrates should be approached with caution. The Australian and UK manufacturers of rosuvastatin state that rosuvastatin 40 mg is contraindicated with concomitant use of fibrates.(27,28) The risks of concurrent use of fibrates should be carefully weighed against the benefits. Patients taking a fibrate should start rosuvastatin therapy with the 5 mg dose. The US manufacturer of rosuvastatin states that the concurrent use of fenofibrate should be carefully weighed against the benefits. In patients receiving concurrent fenofibrate, a dosage reduction of rosuvastatin should be considered.(5) The manufacturer of simvastatin states that concurrent therapy with other fibrates should be approached with caution.(7) DISCUSSION: Concurrent fenofibrate (160 mg daily) increased the AUC and Cmax of pitavastatin (4 mg daily) by 18% and 11%, respectively. Concurrent fenofibrate (145 mg) with pravastatin (40 mg) increased pravastatin Cmax and AUC by 36% (range from 69% decrease to 321% increase) and 28% (range from 54% decrease to 128% increase), respectively, and the 3-alpha-hydroxy-iso-pravastatin Cmax and AUC by 55% (range from 32% decrease to 314% increase) and by 39% (range from 24% decrease to 261% increase), respectively. A single dose of pravastatin had no effect on the kinetics of fenofibrate. In a study in 24 healthy subjects, concurrent fenofibrate (160 mg daily) increased the average AUC of pravastatin (40 mg daily) by 19-28%; however, individual changes were variable and not statistically significant. Concurrent fenofibrate and rosuvastatin resulted in no significant changes in rosuvastatin or fenofibrate levels; however, rhabdomyolysis has been reported during concurrent therapy. Concurrent fenofibrate and simvastatin resulted in no significant changes in simvastatin or fenofibrate levels; however, rhabdomyolysis has been reported during concurrent therapy. In a study in 29 patients, 4 patients reported myalgia during concurrent simvastatin and fenofibrate, compared with no reports during concurrent simvastatin and cholestyramine. The risk of rhabdomyolysis with concurrent fibrate and HMG CoA reductase inhibitor therapy appears to be greater with gemfibrozil. Analysis of the FDA Adverse Event Report database indicates that the rate is 30 times higher with gemfibrozil than with fenofibrate. In an analysis of data from the Veteran's Administration over a 2 year period, there were 149 reports of rhabdomyolysis in 93,677 (0.016%) patients receiving concurrent gemfibrozil and statin therapy compared with no reports in 1,830 patients receiving concurrent fenofibrate and statin therapy. In a study in 66 healthy volunteers, concomitant administration of fenofibrate (160 mg for 7 days) and atorvastatin (40 mg single dose) did not result in a clinically significant change in the atorvastatin AUC.(22) A meta-analysis of 6 randomized controlled trials (including approximately 1600 patients) found no cases of myopathy or rhabdomyolysis in combination therapy of fenofibrate with simvastatin, fluvastatin, or atorvastatin. A comparison of the incidence of creatine kinase greater than 5 times the ULN between combination statin-fenofibrate and statin monotherapy was found to be not significant.(23) A meta-analysis of 13 randomized controlled trials (including approximately 7000 patients) found no significant difference in the incidence of elevated creatine kinase or muscle-associated adverse effects between single-drug statin therapy or combination fenofibrate-statin therapy.(24) The ACCORD trial showed that fenofibrate-simvastatin concomitant therapy had similar rates as simvastatin alone for myopathy, myositis, or rhabdomyolysis.(25) The ACCORD trial was a randomized trial of 5518 patients with type 2 diabetes receiving simvastatin (40 mg per day or less) and either fenofibrate (initial dose of 160 mg per day, dose adjusted for renal function) or placebo. At the mean follow up of 4.7 years, the primary efficacy endpoint of first occurrence of a major cardiovascular event, including nonfatal myocardial infarction, nonfatal stroke, or death from cardiovascular causes, occurred at an annual rate of 2.2% in the fenofibrate group and 2.4 % in the placebo group (p=0.32).(26) Selected HMG-CoA reductase inhibitors linked to this monograph include: fluvastatin, lovastatin, pitavastatin, pravastatin, rosuvastatin, and simvastatin.	FENOFIBRATE, FENOFIBRIC ACID, FIBRICOR, LIPOFEN, TRICOR, TRILIPIX
Betrixaban; Dabigatran; Edoxaban/Lovastatin; Simvastatin SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Betrixaban, dabigatran etexilate, and edoxaban are substrates for the P-glycoprotein (P-gp) system. Inhibition of intestinal P-gp leads to increased absorption of betrixaban, dabigatran, and edoxaban.(1-6) Lovastatin and simvastatin are inhibitors of intestinal P-gp.(7,8) CLINICAL EFFECTS: The concurrent use of betrixaban, dabigatran, and edoxaban with lovastatin or simvastatin may lead to elevated plasma levels of betrixaban, dabigatran, and edoxaban, increasing the risk for bleeding. PREDISPOSING FACTORS: Factors associated with an increased risk for bleeding include renal impairment, concomitant use of P-gp inhibitors, patient age >74 years, coexisting conditions (e.g. recent trauma) or use of drugs (e.g. NSAIDs) associated with bleeding risk, and patient weight < 50 kg.(1-6) The risk for bleeding episodes may be greater in patients with disease-associated factors (e.g. thrombocytopenia). Drug associated risk factors include concurrent use of multiple drugs which inhibit anticoagulant/antiplatelet metabolism and/or have an inherent risk for bleeding (e.g. NSAIDs). PATIENT MANAGEMENT: Assess renal function and evaluate patient for other pre-existing risk factors for bleeding prior to initiating concurrent therapy. The concurrent use of betrixaban, dabigatran, and edoxaban with lovastatin or simvastatin should be monitored closely. Consider alternate therapy such as atorvastatin, fluvastatin, pravastatin, or rosuvastatin that are not known to inhibit P-gp.(7,8) Careful monitoring for signs and symptoms of bleeding is warranted during concurrent therapy. Consider regular monitoring of hemoglobin, platelet levels, and/or activated partial thromboplastin time (aPTT) or ecarin clotting time (ECT). Instruct patients to report any signs and symptoms of bleeding, such as bleeding from the eyes, gums or nose; unusual bruising; dark stools; red or dark brown urine; and/or abdominal pain or swelling. DISCUSSION: A population-based, nested case-control study of 45,991 patients taking dabigatran aged 66 years or older were screened for ischemic stroke or major hemorrhage with a single statin prescription in the 60 days preceding the index date. Each case was matched with up to 4 controls by age and sex. The use of lovastatin or simvastatin was not associated with an increased risk of stroke or transient ischemic attack relative to other statins in patients receiving dabigatran (adjusted OR 1.33, 95% CI 0.88-2.01). However, the use of lovastatin or simvastatin was associated with a higher risk of major hemorrhage than comparator statins (adjusted OR 1.46, 95% CI 1.17-1.82).(7) In the APEX randomized, double-blind study the incidence of major or clinically relevant non-major bleeds (CRNM) in the betrixaban 40 mg and 80 mg group was higher in patients taking concomitant P-gp inhibitors (2.8% vs. 4.1% vs. 4.7%).(9) In a study in 12 subjects, concomitant administration of a single dose of betrixaban (40 mg) following a 5-day regimen of ketoconazole (200 mg twice daily) resulted in an increase in betrixaban's maximum concentration (Cmax) and area-under-the-curve (AUC) of 2.3-fold and 2.3-fold, respectively.(10) An open-label study looking at concomitant administration of a single dose of betrixaban with verapamil in 18 subjects found an increase in betrixaban's Cmax and AUC of approximately 4.7-fold and 3-fold, respectively.(11) In a study, concomitant administration of betrixaban (80 mg) with amiodarone resulted in an increase in betrixaban's Cmax by 143%.(10) A summary of pharmacokinetic interactions with betrixaban and amiodarone, diltiazem, or verapamil concluded that if concurrent use is warranted, the betrixaban dose should be reduced to 80 mg once then 40 mg daily. Use should be avoided if CrCl is less than 30 ml/min.(11) When dabigatran was co-administered with amiodarone, a P-gp inhibitor, the extent and rate of absorption of amiodarone and its active metabolite DEA were essentially unchanged. The dabigatran area-under-curve (AUC) and maximum concentration (Cmax) were increased by about 60% and 50%, respectively;(2,3) however, dabigatran clearance was increased by 65%.(2) Pretreatment with quinidine (200 mg every 2 hours to a total dose of 1000 mg), and a P-gp inhibitor, increased the AUC and Cmax of dabigatran by 53% and 56%, respectively.(2,3) Chronic administration of immediate release verapamil, a P-gp inhibitor, one hour prior to dabigatran dose increased dabigatran AUC by 154%.(6) Administration of dabigatran two hours before verapamil results in a negligible increase in dabigatran AUC.(2) In an interaction study, the effect of repeat administration of quinidine (300 mg TID) on a single oral dose of edoxaban 60 mg was evaluated in healthy subjects. Both peak (Cmax) and total systemic exposure (AUC) to edoxaban and to the active M4 metabolite increased approximately 1.75-fold.(5) In an interaction study, the effect of repeat administration of verapamil (240 mg Verapamil SR Tablets (Calan SR) QD for 11 Days) on a single oral dose of edoxaban 60 mg on the morning of Day 10 was evaluated in healthy subjects. Total and peak systemic exposure to edoxaban increased 1.53-fold and 1.53-fold, respectively. Total and peak systemic exposure to the active M4 metabolite increased 1.31-fold and 1.28-fold, respectively.(5) Based upon the above results, patients in the DVT/PE trial had a 50% dose reduction (from 60 mg to 30 mg) during concomitant therapy with P-glycoprotein inhibitors. Approximately 0.5% of these patients required a dose reduction solely due to P-gp inhibitor use. This low rate of concurrent therapy was too small to allow for detailed statistical evaluation. Almost all of these patients were receiving quinidine or verapamil. In these patients, both trough edoxaban concentrations (Ctrough) used to evaluate bleeding risk, and total edoxaban exposure (AUC or area-under-curve) used to evaluate treatment efficacy, were lower than patients who did not require any edoxaban dose adjustment. In this DVT/PE comparator trial, subgroup analysis revealed that warfarin had numerically better efficacy than edoxaban in patients receiving P-gp inhibitors. Based upon the overall lower exposure to edoxaban in P-gp dose adjusted subjects, both EMA and FDA Office of Clinical Pharmacology (OCP) concluded that the edoxaban 50% dose reduction overcorrected for the difference in exposure.(5,12) Consequently, EMA recommended no edoxaban dose adjustments for patients receiving concomitant therapy with quinidine or verapamil.(12,13)	DABIGATRAN ETEXILATE, PRADAXA, SAVAYSA
Lovastatin (Less Than or Equal To 40 mg); Simvastatin (Less Than or Equal To 40 mg)/Ticagrelor SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Ticagrelor may inhibit the metabolism of lovastatin and simvastatin by CYP3A4.(1,2) CLINICAL EFFECTS: Concurrent use of ticagrelor may result in elevated levels of and toxicity from lovastatin and simvastatin, including rhabdomyolysis.(1,2) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Avoid the use of doses of lovastatin and simvastatin greater than 40 mg in patients receiving ticagrelor.(1,2) Monitor patients receiving concurrent therapy for signs and symptoms of myopathy. DISCUSSION: Concurrent ticagrelor increased the maximum concentration (Cmax) and area-under-curve (AUC) of simvastatin by 81% and 56%, respectively. The Cmax and AUC of simvastatin acid increased 64% and 52%, respectively, with some individual increases equal to 2-fold to 3-fold.(1)	BRILINTA, TICAGRELOR
Lovastatin/Letermovir SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Letermovir, a moderate CYP3A4 inhibitor, may inhibit the metabolism of lovastatin CYP3A4.(1) CLINICAL EFFECTS: Concurrent use of letermovir may result in elevated levels and side effects of lovastatin, including myopathy, muscle aches, and rhabdomyolysis.(1) PREDISPOSING FACTORS: Concurrent use with cyclosporine may increase the risk of myopathy or rhabdomyolysis. The risk for myopathy or rhabdomyolysis may also be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: Patients receiving concurrent therapy with letermovir and lovastatin should be carefully monitored for adverse effects, including rhabdomyolysis. Consider reducing the dosage of the HMG Co-A reductase inhibitor.(1) When letermovir is coadministered with cyclosporine, use of lovastatin is not recommended.(1) When letermovir is coadministered with cyclosporine, the combined effect on lovastatin may be similar to a strong CYP3A4 inhibitor. Patients receiving concurrent therapy should be instructed to report symptoms of muscle pain, tenderness, or weakness. DISCUSSION: Letermovir is a moderate CYP3A4 inhibitor. In a study, concomitant administration of letermovir (480 mg once daily) with the CYP3A4 substrate midazolam (1 mg single dose intravenous) increased the midazolam area under the curve (AUC) and C24hr by 1.47-fold and 2.74-fold, respectively. Concomitant administration of letermovir (480 mg once daily) with midazolam (2 mg single dose oral) increased the midazolam AUC and maximum concentration (Cmax) by 2.25-fold and 1.72-fold.(1)	PREVYMIS
Atorvastatin; Lovastatin; Simvastatin/Palbociclib SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Palbociclib is a weak CYP3A4 inhibitor.(1) Atorvastatin, lovastatin, and simvastatin are sensitive CYP3A4 substrates.(2) Palbociclib may inhibit the metabolism of atorvastatin, lovastatin, and simvastatin. CLINICAL EFFECTS: Concurrent palbociclib may result in increased levels of atorvastatin, lovastatin, or simvastatin, which may result in hepatic injury, myopathy or rhabdomyolysis. Symptoms of rhabdomyolysis include muscle pain, tenderness, weakness, elevated creatine kinase levels, and reddish-brown, heme positive urine. PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The manufacturer of palbociclib states that drug levels of sensitive CYP3A4 substrates like atorvastatin, lovastatin, and simvastatin may be elevated by palbociclib and to consider dose reduction of the CYP3A4 substrate.(1) Consider the risks versus benefits of continuing antilipidemic therapy. Monitor patients receiving concurrent therapy for signs of rhabdomyolysis. DISCUSSION: A study in 26 healthy women found that palbociclib at steady state increased the maximum concentration (Cmax) and area-under-curve (AUC) of concomitant midazolam (a CYP3A4 substrate) by 37 % and 61 %, respectively, compared to midazolam alone.(3) A case report described a potential interaction in which palbociclib (125 mg daily) was initiated in a patient with metastatic breast cancer who had been taking atorvastatin (40 mg daily) for years. After two cycles of palbociclib, the patient developed rapidly progressive muscle pain and weakness, elevated creatinine kinase of 14,572 units/L, and died after 8 days of hospitalization.(4) A case of transaminitis and rhabdomyolysis was reported during a phase 2 trial of palbociclib in a patient on concomitant simvastatin (80 mg daily). The symptoms improved upon discontinuation of palbociclib.(4,5) In a PKPB model, concurrent use of atorvastatin (40 mg daily) with palbociclib (125 mg daily for 2 months) increased the simulated Cmax ratio and AUC ratio of atorvastatin by 1.16 and 1.36, respectively, and increased the simulated Cmax ratio and AUC ratio of atorvastatin lactone by 1.58 and 1.73, respectively.(6)	IBRANCE
HMG Co-A Reductase Inhibitors/Pazopanib SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The mechanism of interaction is unknown. Statins and pazopanib individually may cause ALT elevations.(1) They share metabolic pathways (CYP3A4) and drug transporters (P-glycoprotein (P-gp), BCRP). Pazopanib is a weak inhibitor of CYP3A4, and the statins inhibit P-gp.(2-5) Their combination may result in elevated drug exposure and toxicity. CLINICAL EFFECTS: Concomitant use of pazopanib and simvastatin is associated with ALT elevations greater than 3 x ULN. Rhabdomyolysis has been reported with the combination of pazopanib and rosuvastatin. Symptoms of rhabdomyolysis include muscle pain, tenderness, weakness, elevated creatine kinase levels, and reddish-brown, heme positive urine. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Consider the risks versus benefits of continuing antilipidemic therapy. Monitor patients receiving concurrent therapy for signs of hepatotoxicity and rhabdomyolysis. The manufacturer of pazopanib states that if ALT elevation occurs in a patient on concomitant simvastatin, pazopanib should be held or discontinued according to recommendations in the pazopanib prescribing information. Alternatively, consider discontinuing simvastatin. There is insufficient data to recommend alternative statins for use in combination with pazopanib.(1) DISCUSSION: A review of 11 pazopanib clinical trials found that ALT elevations greater than 3 x ULN occurred in 27 % (11/41) and 14 % (126/895) of patients with and without concomitant simvastatin, respectively. ALT elevations also occurred more frequently in patients on atorvastatin and on any statin, but the differences were not statistically significant. ALT recovered to less than 2.5 x ULN in all ten patients with follow-up data. Two patients did not have any modification to therapy, while the rest discontinued one or both agents.(2) In a case report, a 73-year-old woman with metastatic renal cell carcinoma presented with rhabdomyolysis, transaminitis, and renal injury six months after starting pazopanib. She had been on rosuvastatin for several years. Pazopanib and rosuvastatin were discontinued and the patient recovered. Rhabdomyolysis due to the combination of rosuvastatin and pazopanib was suspected, though rosuvastatin is primarily metabolized by CYP2C9 and pazopanib is not known to inhibit CYP2C9.(3)	PAZOPANIB HCL, VOTRIENT
Fluvastatin (Less Than or Equal To 20 mg); Lovastatin (Less Than or Equal To 20 mg); Simvastatin (Less Than or Equal To 20 mg)/Elbasvir-Grazoprevir SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Elbasvir-grazoprevir may inhibit intestinal BCRP, resulting in increased absorption of simvastatin. The mechanism of interaction with fluvastatin and lovastatin is not known, but may be related to competitive inhibition of OATP1B1 by elbasvir-grazoprevir.(1-3) CLINICAL EFFECTS: Concurrent use of elbasvir-grazoprevir may result in elevated levels of and toxicity from fluvastatin, lovastatin, and simvastatin, including rhabdomyolysis.(1-3) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. Patients on fluvastatin who are CYP2C9 intermediate or poor metabolizers may have increased fluvastatin concentrations and risk of myopathy. PATIENT MANAGEMENT: The Canadian and UK manufacturers of elbasvir-grazoprevir and of simvastatin recommend that, in patients requiring elbasvir-grazoprevir, doses greater than 20 mg daily of fluvastatin, lovastatin, or simvastatin should not be used.(1,2) The US manufacturer of elbasvir-grazoprevir states that the lowest possible dose of fluvastatin, lovastatin, or simvastatin should be used.(3) If concurrent use is deemed medically necessary, instruct patients to report symptoms of muscle pain, tenderness, or weakness. DISCUSSION: Elbasvir-grazoprevir is a substrate of OATP1B1 and has been shown to inhibit intestinal BCRP.(1,3) Fluvastatin and lovastatin are substrates of OATP1B1 and simvastatin is a substrate of BCRP and OATP1B1.(4) Studies with other statins (i.e., atorvastatin, rosuvastatin) have shown that elbasvir-grazoprevir can increase the concentrations of these statins. While interaction studies of elbasvir-grazoprevir with fluvastatin, lovastatin, and simvastatin have not been done, fluvastatin and lovastatin concentrations have been shown to increase with other OATP1B1 inhibitors, and simvastatin levels have been shown to increase with other BCRP inhibitors.(4)	ZEPATIER
Lovastatin; Simvastatin/Lenacapavir SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Lenacapavir may inhibit the metabolism of lovastatin and simvastatin by CYP3A4.(1) CLINICAL EFFECTS: Concurrent use of lenacapavir may result in elevated levels and side effects of lovastatin or simvastatin, including rhabdomyolysis.(1,2) PREDISPOSING FACTORS: The risk for myopathy or rhabdomyolysis may be greater in patients 65 years and older, inadequately treated hypothyroidism, renal impairment, carnitine deficiency, malignant hyperthermia, or in patients with a history of myopathy or rhabdomyolysis. Patients with a SLCO1B1 polymorphism that leads to decreased function of the hepatic uptake transporter OATP1B1 may have increased statin concentrations and be predisposed to myopathy or rhabdomyolysis. PATIENT MANAGEMENT: The manufacturer of lenacapavir recommends initiating lovastatin or simvastatin with the lowest starting dose and titrating carefully.(1-3) Patients receiving concurrent therapy with lenacapavir and lovastatin or simvastatin should be carefully monitored for adverse effects, including rhabdomyolysis. DISCUSSION: Concurrent administration of lenacapavir 600 mg with a single 2.5 mg dose of midazolam (a CYP3A4 substrate) increased midazolam maximum concentration (Cmax) and area-under-curve (AUC) by 1.94-fold and 3.59-fold, respectively.(1-3)	SUNLENCA

The following contraindication information is available for LOVASTATIN (lovastatin):

Overview
Contraindicated
Severe
Moderate

Drug contraindication overview.

*Hypersensitivity to lovastatin or any component of the formulation. *Active liver disease or unexplained, persistent elevations of serum transaminases. *Concomitant therapy with strong inhibitors of cytochrome P-450 (CYP) isoenzyme 3A4 (e.g., clarithromycin, cobicistat-containing preparations, erythromycin, HIV protease inhibitors, itraconazole, ketoconazole, nefazodone, posaconazole,voriconazole).

*Nursing mothers. The manufacturer states that lovastatin is contraindicated in women who are pregnant or may become pregnant; however, because statins may prevent serious or potentially fatal cardiovascular events in certain high-risk patients who are pregnant, FDA has requested that the contraindication in pregnant women be removed from the prescribing information for all statins.

There are 2 contraindications. Absolute contraindication.

Contraindication List
Hepatic failure
Lactation

There are 10 severe contraindications. Adequate patient monitoring is recommended for safer drug use.

Severe List
Acute renal failure
Alcohol use disorder
Chronic kidney disease stage 4 (severe) GFR 15-29 ml/min
Chronic kidney disease stage 5 (failure) GFr<15 ml/min
Disease of liver
Immune-mediated necrotizing myopathy
Intracerebral hemorrhage
Myopathy with CK elevation
Pregnancy
Rhabdomyolysis

There are 3 moderate contraindications. Clinically significant contraindication, where the condition can be managed or treated before the drug may be given safely.

Moderate List
Hyperglycemia
Memory impairment
Myasthenia gravis

The following adverse reaction information is available for LOVASTATIN (lovastatin):

Overview
Severe
Less Severe

Adverse reaction overview.

Adverse effects reported in at least 2% of patients receiving immediate-release lovastatin include GI disturbances (e.g., flatulence, diarrhea, abdominal pain, constipation, nausea), headache, and myalgia. Adverse effects reported in at least 5% of patients receiving extended-release lovastatin include infection, headache, and accidental injury.

There are 35 severe adverse reactions.

More Frequent	Less Frequent
Myalgia	Atrial fibrillation

Rare/Very Rare
Abnormal hepatic function tests Anaphylaxis Anemia Angioedema Bullous dermatitis Dermatomyositis Diabetes mellitus Dyspnea Eosinophilia Erythema multiforme Hemolytic anemia Hepatic failure Hepatic necrosis Hepatitis Immune-mediated necrotizing myopathy Interstitial lung disease Jaundice Lupus-like syndrome Myopathy Myositis Obstructive hyperbilirubinemia Ocular myasthenia Ophthalmoplegia Pancreatitis Polymyalgia rheumatica Polymyositis Purpura Rhabdomyolysis Stevens-johnson syndrome Thrombocytopenic disorder Toxic epidermal necrolysis Urinary tract infection Vasculitis

Rare/Very Rare

Abnormal hepatic function tests
Anaphylaxis
Anemia
Angioedema
Bullous dermatitis
Dermatomyositis
Diabetes mellitus
Dyspnea
Eosinophilia
Erythema multiforme
Hemolytic anemia
Hepatic failure
Hepatic necrosis
Hepatitis
Immune-mediated necrotizing myopathy
Interstitial lung disease
Jaundice
Lupus-like syndrome
Myopathy
Myositis
Obstructive hyperbilirubinemia
Ocular myasthenia
Ophthalmoplegia
Pancreatitis
Polymyalgia rheumatica
Polymyositis
Purpura
Rhabdomyolysis
Stevens-johnson syndrome
Thrombocytopenic disorder
Toxic epidermal necrolysis
Urinary tract infection
Vasculitis

There are 71 less severe adverse reactions.

More Frequent	Less Frequent
Acute abdominal pain Constipation Diarrhea Dizziness Dyspepsia Headache disorder Heartburn Infection Nausea Skin rash Upper respiratory infection	Arthralgia Arthritis Back pain Eczema Fatigue Flatulence Flu-like symptoms Gastritis Palpitations Sinusitis

Rare/Very Rare
Acute cognitive impairment Alopecia Anorexia Biliary calculus Blurred vision Bronchitis Cataracts Chest pain Cholecystitis Cough Cramps Depression Disorder of thyroid gland Dry skin Dyschromia Dysesthesia Dysgeusia Dysuria Edema Erectile dysfunction Facial palsy Fever Flushing General weakness Gynecomastia Hyperglycemia Hypoesthesia Increased urinary frequency Insomnia Libido changes Lichen planus Malaise Memory impairment Muscle spasm Muscle weakness Nail disorders Nightmares Nocturia Paresthesia Peripheral neuropathy Pruritus of skin Rhinitis Skin nodules Skin photosensitivity Symptoms of anxiety Tremor Urticaria Vertigo Vomiting Xerostomia

Rare/Very Rare

Acute cognitive impairment
Alopecia
Anorexia
Biliary calculus
Blurred vision
Bronchitis
Cataracts
Chest pain
Cholecystitis
Cough
Cramps
Depression
Disorder of thyroid gland
Dry skin
Dyschromia
Dysesthesia
Dysgeusia
Dysuria
Edema
Erectile dysfunction
Facial palsy
Fever
Flushing
General weakness
Gynecomastia
Hyperglycemia
Hypoesthesia
Increased urinary frequency
Insomnia
Libido changes
Lichen planus
Malaise
Memory impairment
Muscle spasm
Muscle weakness
Nail disorders
Nightmares
Nocturia
Paresthesia
Peripheral neuropathy
Pruritus of skin
Rhinitis
Skin nodules
Skin photosensitivity
Symptoms of anxiety
Tremor
Urticaria
Vertigo
Vomiting
Xerostomia

The following precautions are available for LOVASTATIN (lovastatin):

Pediatric
Pregnant
Lactation
Geriatric

Safety and effectiveness of lovastatin immediate-release tablets for the treatment of patients 10 to 17 years of age with heterozygous familial hypercholesterolemia (HeFH) have been established in controlled clinical trials of 48 weeks' duration in adolescent boys and controlled clinical trials of 24 weeks' duration in girls who were at least 1 year post-menarche. The adverse effect profile of lovastatin immediate-release tablets (10-40 mg daily for at least 24 weeks) generally was similar to that of placebo; dosages exceeding 40 mg daily have not been evaluated in this population. There were no detectable adverse effects on growth or sexual maturation in adolescent boys or on duration of menstrual cycle in girls.

If therapy with lovastatin is considered, the manufacturer states that adolescent girls should be advised to use effective and appropriate contraceptive methods during therapy to reduce the likelihood of unintended pregnancy. Safety and efficacy of lovastatin have not been evaluated in prepubertal children or in children younger than 10 years of age; however, experts state that statins may be considered as young as 8 years of age+ in the presence of concerning family history, extremely elevated LDL-cholesterol level, or elevated lipoprotein (a), in the context of informed shared decision-making and counseling with the patient and family. Safety and efficacy of lovastatin as extended-release tablets have not been established in children or adolescents younger than 20 years of age. Therefore, the manufacturer states that this preparation should not be used in this population.

Contraindicated

None

Severe Precaution

None

Management or Monitoring Precaution

None

All statins were previously contraindicated in pregnant women because the fetal risk with these drugs was thought to outweigh any possible benefit. This determination was based on several factors including safety signals from animal data. Lovastatin has produced skeletal malformations in offspring of pregnant mice and rats receiving dosages of 80 mg/kg daily during gestation (7 times the human dose based on body surface area and 5 times the human exposure based on AUC, respectively).

In addition, congenital anomalies including severe CNS defects and unilateral limb deficiencies were reported in a case series of pregnant women who were exposed to a lipophilic statin during the first trimester. Because statins decrease synthesis of cholesterol and possibly other products of the cholesterol biosynthetic pathway, there is also a concern that these drugs can potentially cause fetal harm. More recent data from case series and observational cohort studies have not shown evidence of an increased risk of major birth defects with statin use during pregnancy, and this was observed after controlling for potential confounders such as maternal age, diabetes mellitus, hypertension, obesity, and alcohol and tobacco use.

The overall evidence from animal studies suggests limited potential for statins to cause malformations or other adverse fetal effects. While an increased risk of miscarriage has been reported in pregnant women exposed to statins, it is not clear whether this effect is related to the drugs or to other confounding factors. FDA conducted a comprehensive review of all available clinical and nonclinical data related to statin use in pregnant women and concluded that the totality of evidence suggests limited potential for statins to cause malformations and other adverse embryofetal effects.

Because statins may prevent serious or potentially fatal cardiovascular events in certain high-risk patients who are pregnant, FDA has requested that the contraindication in pregnant women be removed from the prescribing information for all statins. While FDA still advises that most pregnant patients discontinue statins because of the possibility of fetal harm, there may be some patients (e.g., those with homozygous familial hypercholesterolemia or established cardiovascular disease) in whom continued therapy may be beneficial; therefore, decisions should be individualized based on the patient's risks versus benefits. Patients who become pregnant or suspect that they are pregnant while receiving a statin should notify their clinician who can advise them on the appropriate course of action.

It is not known whether lovastatin is distributed into human milk; however, other statins are distributed into human milk. Because of the potential for serious adverse reactions from lovastatin in nursing infants, the drug is contraindicated in nursing women; women who require lovastatin therapy should not breast-feed their infants. Many patients can stop statin therapy temporarily until breast-feeding is complete; patients who require ongoing statin treatment should not breast-feed and should use alternatives such as infant formula.

Results of a pharmacokinetic study in a limited number of patients receiving lovastatin immediate-release tablets (80 mg daily) indicate that mean plasma levels of HMG-CoA reductase inhibitory activity are approximately 45% higher in geriatric patients (70-78 years of age) than in younger adults (18-30 years of age). However, data from clinical studies and other reported clinical experience employing various preparations of lovastatin suggest that safety and efficacy of the drug in geriatric patients appear to be similar to those in younger adults. Although dosage adjustment based on age-related pharmacokinetic differences does not appear to be necessary for geriatric patients, greater sensitivity in some older patients cannot be ruled out.

Because advanced age (65 years of age or older) is a predisposing factor for myopathy, including rhabdomyolysis, the manufacturer states that lovastatin should be prescribed with caution in this population. Lower initial dosages of extended-release lovastatin are recommended in geriatric patients. Because patients older than 75 years of age may have a higher risk of adverse effects and lower adherence to therapy, the expected benefits versus adverse effects should be considered before initiating statin therapy in this population.

The following icd codes are available for LOVASTATIN (lovastatin)'s list of indications:

Atherosclerotic cardiovascular disease
G45	Transient cerebral ischemic attacks and related syndromes
G45.8	Other transient cerebral ischemic attacks and related syndromes
G45.9	Transient cerebral ischemic attack, unspecified
I20	Angina pectoris
I20.0	Unstable angina
I20.2	Refractory angina pectoris
I20.9	Angina pectoris, unspecified
I21	Acute myocardial infarction
I21.0	ST elevation (STEMi) myocardial infarction of anterior wall
I21.01	ST elevation (STEMi) myocardial infarction involving left main coronary artery
I21.02	ST elevation (STEMi) myocardial infarction involving left anterior descending coronary artery
I21.09	ST elevation (STEMi) myocardial infarction involving other coronary artery of anterior wall
I21.1	ST elevation (STEMi) myocardial infarction of inferior wall
I21.11	ST elevation (STEMi) myocardial infarction involving right coronary artery
I21.19	ST elevation (STEMi) myocardial infarction involving other coronary artery of inferior wall
I21.2	ST elevation (STEMi) myocardial infarction of other sites
I21.21	ST elevation (STEMi) myocardial infarction involving left circumflex coronary artery
I21.29	ST elevation (STEMi) myocardial infarction involving other sites
I21.3	ST elevation (STEMi) myocardial infarction of unspecified site
I21.4	Non-ST elevation (NSTEMi) myocardial infarction
I22	Subsequent ST elevation (STEMi) and non-ST elevation (NSTEMi) myocardial infarction
I22.0	Subsequent ST elevation (STEMi) myocardial infarction of anterior wall
I22.1	Subsequent ST elevation (STEMi) myocardial infarction of inferior wall
I22.2	Subsequent non-ST elevation (NSTEMi) myocardial infarction
I22.8	Subsequent ST elevation (STEMi) myocardial infarction of other sites
I22.9	Subsequent ST elevation (STEMi) myocardial infarction of unspecified site
I23	Certain current complications following ST elevation (STEMi) and non-ST elevation (NSTEMi) myocardial infarction (within the 28 day period)
I23.0	Hemopericardium as current complication following acute myocardial infarction
I23.1	Atrial septal defect as current complication following acute myocardial infarction
I23.2	Ventricular septal defect as current complication following acute myocardial infarction
I23.3	Rupture of cardiac wall without hemopericardium as current complication following acute myocardial infarction
I23.4	Rupture of chordae tendineae as current complication following acute myocardial infarction
I23.5	Rupture of papillary muscle as current complication following acute myocardial infarction
I23.6	Thrombosis of atrium, auricular appendage, and ventricle as current complications following acute myocardial infarction
I23.7	Postinfarction angina
I23.8	Other current complications following acute myocardial infarction
I24.0	Acute coronary thrombosis not resulting in myocardial infarction
I25.1	Atherosclerotic heart disease of native coronary artery
I25.10	Atherosclerotic heart disease of native coronary artery without angina pectoris
I25.11	Atherosclerotic heart disease of native coronary artery with angina pectoris
I25.110	Atherosclerotic heart disease of native coronary artery with unstable angina pectoris
I25.111	Atherosclerotic heart disease of native coronary artery with angina pectoris with documented spasm
I25.112	Atherosclerotic heart disease of native coronary artery with refractory angina pectoris
I25.118	Atherosclerotic heart disease of native coronary artery with other forms of angina pectoris
I25.119	Atherosclerotic heart disease of native coronary artery with unspecified angina pectoris
I25.2	Old myocardial infarction
I25.7	Atherosclerosis of coronary artery bypass graft(s) and coronary artery of transplanted heart with angina pectoris
I25.70	Atherosclerosis of coronary artery bypass graft(s), unspecified, with angina pectoris
I25.700	Atherosclerosis of coronary artery bypass graft(s), unspecified, with unstable angina pectoris
I25.701	Atherosclerosis of coronary artery bypass graft(s), unspecified, with angina pectoris with documented spasm
I25.702	Atherosclerosis of coronary artery bypass graft(s), unspecified, with refractory angina pectoris
I25.708	Atherosclerosis of coronary artery bypass graft(s), unspecified, with other forms of angina pectoris
I25.709	Atherosclerosis of coronary artery bypass graft(s), unspecified, with unspecified angina pectoris
I25.71	Atherosclerosis of autologous vein coronary artery bypass graft(s) with angina pectoris
I25.710	Atherosclerosis of autologous vein coronary artery bypass graft(s) with unstable angina pectoris
I25.711	Atherosclerosis of autologous vein coronary artery bypass graft(s) with angina pectoris with documented spasm
I25.712	Atherosclerosis of autologous vein coronary artery bypass graft(s) with refractory angina pectoris
I25.718	Atherosclerosis of autologous vein coronary artery bypass graft(s) with other forms of angina pectoris
I25.719	Atherosclerosis of autologous vein coronary artery bypass graft(s) with unspecified angina pectoris
I25.72	Atherosclerosis of autologous artery coronary artery bypass graft(s) with angina pectoris
I25.720	Atherosclerosis of autologous artery coronary artery bypass graft(s) with unstable angina pectoris
I25.721	Atherosclerosis of autologous artery coronary artery bypass graft(s) with angina pectoris with documented spasm
I25.722	Atherosclerosis of autologous artery coronary artery bypass graft(s) with refractory angina pectoris
I25.728	Atherosclerosis of autologous artery coronary artery bypass graft(s) with other forms of angina pectoris
I25.729	Atherosclerosis of autologous artery coronary artery bypass graft(s) with unspecified angina pectoris
I25.73	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with angina pectoris
I25.730	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with unstable angina pectoris
I25.731	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with angina pectoris with documented spasm
I25.732	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with refractory angina pectoris
I25.738	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with other forms of angina pectoris
I25.739	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with unspecified angina pectoris
I25.75	Atherosclerosis of native coronary artery of transplanted heart with angina pectoris
I25.750	Atherosclerosis of native coronary artery of transplanted heart with unstable angina
I25.751	Atherosclerosis of native coronary artery of transplanted heart with angina pectoris with documented spasm
I25.752	Atherosclerosis of native coronary artery of transplanted heart with refractory angina pectoris
I25.758	Atherosclerosis of native coronary artery of transplanted heart with other forms of angina pectoris
I25.759	Atherosclerosis of native coronary artery of transplanted heart with unspecified angina pectoris
I25.76	Atherosclerosis of bypass graft of coronary artery of transplanted heart with angina pectoris
I25.760	Atherosclerosis of bypass graft of coronary artery of transplanted heart with unstable angina
I25.761	Atherosclerosis of bypass graft of coronary artery of transplanted heart with angina pectoris with documented spasm
I25.762	Atherosclerosis of bypass graft of coronary artery of transplanted heart with refractory angina pectoris
I25.768	Atherosclerosis of bypass graft of coronary artery of transplanted heart with other forms of angina pectoris
I25.769	Atherosclerosis of bypass graft of coronary artery of transplanted heart with unspecified angina pectoris
I25.79	Atherosclerosis of other coronary artery bypass graft(s) with angina pectoris
I25.790	Atherosclerosis of other coronary artery bypass graft(s) with unstable angina pectoris
I25.791	Atherosclerosis of other coronary artery bypass graft(s) with angina pectoris with documented spasm
I25.792	Atherosclerosis of other coronary artery bypass graft(s) with refractory angina pectoris
I25.798	Atherosclerosis of other coronary artery bypass graft(s) with other forms of angina pectoris
I25.799	Atherosclerosis of other coronary artery bypass graft(s) with unspecified angina pectoris
I25.81	Atherosclerosis of other coronary vessels without angina pectoris
I25.810	Atherosclerosis of coronary artery bypass graft(s) without angina pectoris
I25.811	Atherosclerosis of native coronary artery of transplanted heart without angina pectoris
I25.812	Atherosclerosis of bypass graft of coronary artery of transplanted heart without angina pectoris
I25.83	Coronary atherosclerosis due to lipid rich plaque
I25.84	Coronary atherosclerosis due to calcified coronary lesion
I63	Cerebral infarction
I63.0	Cerebral infarction due to thrombosis of precerebral arteries
I63.00	Cerebral infarction due to thrombosis of unspecified precerebral artery
I63.01	Cerebral infarction due to thrombosis of vertebral artery
I63.011	Cerebral infarction due to thrombosis of right vertebral artery
I63.012	Cerebral infarction due to thrombosis of left vertebral artery
I63.013	Cerebral infarction due to thrombosis of bilateral vertebral arteries
I63.019	Cerebral infarction due to thrombosis of unspecified vertebral artery
I63.02	Cerebral infarction due to thrombosis of basilar artery
I63.03	Cerebral infarction due to thrombosis of carotid artery
I63.031	Cerebral infarction due to thrombosis of right carotid artery
I63.032	Cerebral infarction due to thrombosis of left carotid artery
I63.033	Cerebral infarction due to thrombosis of bilateral carotid arteries
I63.039	Cerebral infarction due to thrombosis of unspecified carotid artery
I63.09	Cerebral infarction due to thrombosis of other precerebral artery
I63.11	Cerebral infarction due to embolism of vertebral artery
I63.3	Cerebral infarction due to thrombosis of cerebral arteries
I63.30	Cerebral infarction due to thrombosis of unspecified cerebral artery
I63.31	Cerebral infarction due to thrombosis of middle cerebral artery
I63.311	Cerebral infarction due to thrombosis of right middle cerebral artery
I63.312	Cerebral infarction due to thrombosis of left middle cerebral artery
I63.313	Cerebral infarction due to thrombosis of bilateral middle cerebral arteries
I63.319	Cerebral infarction due to thrombosis of unspecified middle cerebral artery
I63.32	Cerebral infarction due to thrombosis of anterior cerebral artery
I63.321	Cerebral infarction due to thrombosis of right anterior cerebral artery
I63.322	Cerebral infarction due to thrombosis of left anterior cerebral artery
I63.323	Cerebral infarction due to thrombosis of bilateral anterior cerebral arteries
I63.329	Cerebral infarction due to thrombosis of unspecified anterior cerebral artery
I63.33	Cerebral infarction due to thrombosis of posterior cerebral artery
I63.331	Cerebral infarction due to thrombosis of right posterior cerebral artery
I63.332	Cerebral infarction due to thrombosis of left posterior cerebral artery
I63.333	Cerebral infarction due to thrombosis of bilateral posterior cerebral arteries
I63.339	Cerebral infarction due to thrombosis of unspecified posterior cerebral artery
I63.34	Cerebral infarction due to thrombosis of cerebellar artery
I63.341	Cerebral infarction due to thrombosis of right cerebellar artery
I63.342	Cerebral infarction due to thrombosis of left cerebellar artery
I63.343	Cerebral infarction due to thrombosis of bilateral cerebellar arteries
I63.349	Cerebral infarction due to thrombosis of unspecified cerebellar artery
I63.39	Cerebral infarction due to thrombosis of other cerebral artery
I63.8	Other cerebral infarction
I63.9	Cerebral infarction, unspecified
I67.2	Cerebral atherosclerosis
I70	Atherosclerosis
I70.0	Atherosclerosis of aorta
I70.1	Atherosclerosis of renal artery
I70.2	Atherosclerosis of native arteries of the extremities
I70.20	Unspecified atherosclerosis of native arteries of extremities
I70.201	Unspecified atherosclerosis of native arteries of extremities, right leg
I70.202	Unspecified atherosclerosis of native arteries of extremities, left leg
I70.203	Unspecified atherosclerosis of native arteries of extremities, bilateral legs
I70.208	Unspecified atherosclerosis of native arteries of extremities, other extremity
I70.209	Unspecified atherosclerosis of native arteries of extremities, unspecified extremity
I70.21	Atherosclerosis of native arteries of extremities with intermittent claudication
I70.211	Atherosclerosis of native arteries of extremities with intermittent claudication, right leg
I70.212	Atherosclerosis of native arteries of extremities with intermittent claudication, left leg
I70.213	Atherosclerosis of native arteries of extremities with intermittent claudication, bilateral legs
I70.218	Atherosclerosis of native arteries of extremities with intermittent claudication, other extremity
I70.219	Atherosclerosis of native arteries of extremities with intermittent claudication, unspecified extremity
I70.22	Atherosclerosis of native arteries of extremities with rest pain
I70.221	Atherosclerosis of native arteries of extremities with rest pain, right leg
I70.222	Atherosclerosis of native arteries of extremities with rest pain, left leg
I70.223	Atherosclerosis of native arteries of extremities with rest pain, bilateral legs
I70.228	Atherosclerosis of native arteries of extremities with rest pain, other extremity
I70.229	Atherosclerosis of native arteries of extremities with rest pain, unspecified extremity
I70.23	Atherosclerosis of native arteries of right leg with ulceration
I70.231	Atherosclerosis of native arteries of right leg with ulceration of thigh
I70.232	Atherosclerosis of native arteries of right leg with ulceration of calf
I70.233	Atherosclerosis of native arteries of right leg with ulceration of ankle
I70.234	Atherosclerosis of native arteries of right leg with ulceration of heel and midfoot
I70.235	Atherosclerosis of native arteries of right leg with ulceration of other part of foot
I70.238	Atherosclerosis of native arteries of right leg with ulceration of other part of lower leg
I70.239	Atherosclerosis of native arteries of right leg with ulceration of unspecified site
I70.24	Atherosclerosis of native arteries of left leg with ulceration
I70.241	Atherosclerosis of native arteries of left leg with ulceration of thigh
I70.242	Atherosclerosis of native arteries of left leg with ulceration of calf
I70.243	Atherosclerosis of native arteries of left leg with ulceration of ankle
I70.244	Atherosclerosis of native arteries of left leg with ulceration of heel and midfoot
I70.245	Atherosclerosis of native arteries of left leg with ulceration of other part of foot
I70.248	Atherosclerosis of native arteries of left leg with ulceration of other part of lower leg
I70.249	Atherosclerosis of native arteries of left leg with ulceration of unspecified site
I70.25	Atherosclerosis of native arteries of other extremities with ulceration
I70.26	Atherosclerosis of native arteries of extremities with gangrene
I70.261	Atherosclerosis of native arteries of extremities with gangrene, right leg
I70.262	Atherosclerosis of native arteries of extremities with gangrene, left leg
I70.263	Atherosclerosis of native arteries of extremities with gangrene, bilateral legs
I70.268	Atherosclerosis of native arteries of extremities with gangrene, other extremity
I70.269	Atherosclerosis of native arteries of extremities with gangrene, unspecified extremity
I70.29	Other atherosclerosis of native arteries of extremities
I70.291	Other atherosclerosis of native arteries of extremities, right leg
I70.292	Other atherosclerosis of native arteries of extremities, left leg
I70.293	Other atherosclerosis of native arteries of extremities, bilateral legs
I70.298	Other atherosclerosis of native arteries of extremities, other extremity
I70.299	Other atherosclerosis of native arteries of extremities, unspecified extremity
I70.3	Atherosclerosis of unspecified type of bypass graft(s) of the extremities
I70.30	Unspecified atherosclerosis of unspecified type of bypass graft(s) of the extremities
I70.301	Unspecified atherosclerosis of unspecified type of bypass graft(s) of the extremities, right leg
I70.302	Unspecified atherosclerosis of unspecified type of bypass graft(s) of the extremities, left leg
I70.303	Unspecified atherosclerosis of unspecified type of bypass graft(s) of the extremities, bilateral legs
I70.308	Unspecified atherosclerosis of unspecified type of bypass graft(s) of the extremities, other extremity
I70.309	Unspecified atherosclerosis of unspecified type of bypass graft(s) of the extremities, unspecified extremity
I70.31	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with intermittent claudication
I70.311	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with intermittent claudication, right leg
I70.312	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with intermittent claudication, left leg
I70.313	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with intermittent claudication, bilateral legs
I70.318	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with intermittent claudication, other extremity
I70.319	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with intermittent claudication, unspecified extremity
I70.32	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with rest pain
I70.321	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with rest pain, right leg
I70.322	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with rest pain, left leg
I70.323	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with rest pain, bilateral legs
I70.328	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with rest pain, other extremity
I70.329	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with rest pain, unspecified extremity
I70.33	Atherosclerosis of unspecified type of bypass graft(s) of the right leg with ulceration
I70.331	Atherosclerosis of unspecified type of bypass graft(s) of the right leg with ulceration of thigh
I70.332	Atherosclerosis of unspecified type of bypass graft(s) of the right leg with ulceration of calf
I70.333	Atherosclerosis of unspecified type of bypass graft(s) of the right leg with ulceration of ankle
I70.334	Atherosclerosis of unspecified type of bypass graft(s) of the right leg with ulceration of heel and midfoot
I70.335	Atherosclerosis of unspecified type of bypass graft(s) of the right leg with ulceration of other part of foot
I70.338	Atherosclerosis of unspecified type of bypass graft(s) of the right leg with ulceration of other part of lower leg
I70.339	Atherosclerosis of unspecified type of bypass graft(s) of the right leg with ulceration of unspecified site
I70.34	Atherosclerosis of unspecified type of bypass graft(s) of the left leg with ulceration
I70.341	Atherosclerosis of unspecified type of bypass graft(s) of the left leg with ulceration of thigh
I70.342	Atherosclerosis of unspecified type of bypass graft(s) of the left leg with ulceration of calf
I70.343	Atherosclerosis of unspecified type of bypass graft(s) of the left leg with ulceration of ankle
I70.344	Atherosclerosis of unspecified type of bypass graft(s) of the left leg with ulceration of heel and midfoot
I70.345	Atherosclerosis of unspecified type of bypass graft(s) of the left leg with ulceration of other part of foot
I70.348	Atherosclerosis of unspecified type of bypass graft(s) of the left leg with ulceration of other part of lower leg
I70.349	Atherosclerosis of unspecified type of bypass graft(s) of the left leg with ulceration of unspecified site
I70.35	Atherosclerosis of unspecified type of bypass graft(s) of other extremity with ulceration
I70.36	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with gangrene
I70.361	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with gangrene, right leg
I70.362	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with gangrene, left leg
I70.363	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with gangrene, bilateral legs
I70.368	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with gangrene, other extremity
I70.369	Atherosclerosis of unspecified type of bypass graft(s) of the extremities with gangrene, unspecified extremity
I70.39	Other atherosclerosis of unspecified type of bypass graft(s) of the extremities
I70.391	Other atherosclerosis of unspecified type of bypass graft(s) of the extremities, right leg
I70.392	Other atherosclerosis of unspecified type of bypass graft(s) of the extremities, left leg
I70.393	Other atherosclerosis of unspecified type of bypass graft(s) of the extremities, bilateral legs
I70.398	Other atherosclerosis of unspecified type of bypass graft(s) of the extremities, other extremity
I70.399	Other atherosclerosis of unspecified type of bypass graft(s) of the extremities, unspecified extremity
I70.4	Atherosclerosis of autologous vein bypass graft(s) of the extremities
I70.40	Unspecified atherosclerosis of autologous vein bypass graft(s) of the extremities
I70.401	Unspecified atherosclerosis of autologous vein bypass graft(s) of the extremities, right leg
I70.402	Unspecified atherosclerosis of autologous vein bypass graft(s) of the extremities, left leg
I70.403	Unspecified atherosclerosis of autologous vein bypass graft(s) of the extremities, bilateral legs
I70.408	Unspecified atherosclerosis of autologous vein bypass graft(s) of the extremities, other extremity
I70.409	Unspecified atherosclerosis of autologous vein bypass graft(s) of the extremities, unspecified extremity
I70.41	Atherosclerosis of autologous vein bypass graft(s) of the extremities with intermittent claudication
I70.411	Atherosclerosis of autologous vein bypass graft(s) of the extremities with intermittent claudication, right leg
I70.412	Atherosclerosis of autologous vein bypass graft(s) of the extremities with intermittent claudication, left leg
I70.413	Atherosclerosis of autologous vein bypass graft(s) of the extremities with intermittent claudication, bilateral legs
I70.418	Atherosclerosis of autologous vein bypass graft(s) of the extremities with intermittent claudication, other extremity
I70.419	Atherosclerosis of autologous vein bypass graft(s) of the extremities with intermittent claudication, unspecified extremity
I70.42	Atherosclerosis of autologous vein bypass graft(s) of the extremities with rest pain
I70.421	Atherosclerosis of autologous vein bypass graft(s) of the extremities with rest pain, right leg
I70.422	Atherosclerosis of autologous vein bypass graft(s) of the extremities with rest pain, left leg
I70.423	Atherosclerosis of autologous vein bypass graft(s) of the extremities with rest pain, bilateral legs
I70.428	Atherosclerosis of autologous vein bypass graft(s) of the extremities with rest pain, other extremity
I70.429	Atherosclerosis of autologous vein bypass graft(s) of the extremities with rest pain, unspecified extremity
I70.43	Atherosclerosis of autologous vein bypass graft(s) of the right leg with ulceration
I70.431	Atherosclerosis of autologous vein bypass graft(s) of the right leg with ulceration of thigh
I70.432	Atherosclerosis of autologous vein bypass graft(s) of the right leg with ulceration of calf
I70.433	Atherosclerosis of autologous vein bypass graft(s) of the right leg with ulceration of ankle
I70.434	Atherosclerosis of autologous vein bypass graft(s) of the right leg with ulceration of heel and midfoot
I70.435	Atherosclerosis of autologous vein bypass graft(s) of the right leg with ulceration of other part of foot
I70.438	Atherosclerosis of autologous vein bypass graft(s) of the right leg with ulceration of other part of lower leg
I70.439	Atherosclerosis of autologous vein bypass graft(s) of the right leg with ulceration of unspecified site
I70.44	Atherosclerosis of autologous vein bypass graft(s) of the left leg with ulceration
I70.441	Atherosclerosis of autologous vein bypass graft(s) of the left leg with ulceration of thigh
I70.442	Atherosclerosis of autologous vein bypass graft(s) of the left leg with ulceration of calf
I70.443	Atherosclerosis of autologous vein bypass graft(s) of the left leg with ulceration of ankle
I70.444	Atherosclerosis of autologous vein bypass graft(s) of the left leg with ulceration of heel and midfoot
I70.445	Atherosclerosis of autologous vein bypass graft(s) of the left leg with ulceration of other part of foot
I70.448	Atherosclerosis of autologous vein bypass graft(s) of the left leg with ulceration of other part of lower leg
I70.449	Atherosclerosis of autologous vein bypass graft(s) of the left leg with ulceration of unspecified site
I70.45	Atherosclerosis of autologous vein bypass graft(s) of other extremity with ulceration
I70.46	Atherosclerosis of autologous vein bypass graft(s) of the extremities with gangrene
I70.461	Atherosclerosis of autologous vein bypass graft(s) of the extremities with gangrene, right leg
I70.462	Atherosclerosis of autologous vein bypass graft(s) of the extremities with gangrene, left leg
I70.463	Atherosclerosis of autologous vein bypass graft(s) of the extremities with gangrene, bilateral legs
I70.468	Atherosclerosis of autologous vein bypass graft(s) of the extremities with gangrene, other extremity
I70.469	Atherosclerosis of autologous vein bypass graft(s) of the extremities with gangrene, unspecified extremity
I70.49	Other atherosclerosis of autologous vein bypass graft(s) of the extremities
I70.491	Other atherosclerosis of autologous vein bypass graft(s) of the extremities, right leg
I70.492	Other atherosclerosis of autologous vein bypass graft(s) of the extremities, left leg
I70.493	Other atherosclerosis of autologous vein bypass graft(s) of the extremities, bilateral legs
I70.498	Other atherosclerosis of autologous vein bypass graft(s) of the extremities, other extremity
I70.499	Other atherosclerosis of autologous vein bypass graft(s) of the extremities, unspecified extremity
I70.5	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities
I70.50	Unspecified atherosclerosis of nonautologous biological bypass graft(s) of the extremities
I70.501	Unspecified atherosclerosis of nonautologous biological bypass graft(s) of the extremities, right leg
I70.502	Unspecified atherosclerosis of nonautologous biological bypass graft(s) of the extremities, left leg
I70.503	Unspecified atherosclerosis of nonautologous biological bypass graft(s) of the extremities, bilateral legs
I70.508	Unspecified atherosclerosis of nonautologous biological bypass graft(s) of the extremities, other extremity
I70.509	Unspecified atherosclerosis of nonautologous biological bypass graft(s) of the extremities, unspecified extremity
I70.51	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities intermittent claudication
I70.511	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with intermittent claudication, right leg
I70.512	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with intermittent claudication, left leg
I70.513	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with intermittent claudication, bilateral legs
I70.518	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with intermittent claudication, other extremity
I70.519	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with intermittent claudication, unspecified extremity
I70.52	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with rest pain
I70.521	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with rest pain, right leg
I70.522	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with rest pain, left leg
I70.523	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with rest pain, bilateral legs
I70.528	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with rest pain, other extremity
I70.529	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with rest pain, unspecified extremity
I70.53	Atherosclerosis of nonautologous biological bypass graft(s) of the right leg with ulceration
I70.531	Atherosclerosis of nonautologous biological bypass graft(s) of the right leg with ulceration of thigh
I70.532	Atherosclerosis of nonautologous biological bypass graft(s) of the right leg with ulceration of calf
I70.533	Atherosclerosis of nonautologous biological bypass graft(s) of the right leg with ulceration of ankle
I70.534	Atherosclerosis of nonautologous biological bypass graft(s) of the right leg with ulceration of heel and midfoot
I70.535	Atherosclerosis of nonautologous biological bypass graft(s) of the right leg with ulceration of other part of foot
I70.538	Atherosclerosis of nonautologous biological bypass graft(s) of the right leg with ulceration of other part of lower leg
I70.539	Atherosclerosis of nonautologous biological bypass graft(s) of the right leg with ulceration of unspecified site
I70.54	Atherosclerosis of nonautologous biological bypass graft(s) of the left leg with ulceration
I70.541	Atherosclerosis of nonautologous biological bypass graft(s) of the left leg with ulceration of thigh
I70.542	Atherosclerosis of nonautologous biological bypass graft(s) of the left leg with ulceration of calf
I70.543	Atherosclerosis of nonautologous biological bypass graft(s) of the left leg with ulceration of ankle
I70.544	Atherosclerosis of nonautologous biological bypass graft(s) of the left leg with ulceration of heel and midfoot
I70.545	Atherosclerosis of nonautologous biological bypass graft(s) of the left leg with ulceration of other part of foot
I70.548	Atherosclerosis of nonautologous biological bypass graft(s) of the left leg with ulceration of other part of lower leg
I70.549	Atherosclerosis of nonautologous biological bypass graft(s) of the left leg with ulceration of unspecified site
I70.55	Atherosclerosis of nonautologous biological bypass graft(s) of other extremity with ulceration
I70.56	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with gangrene
I70.561	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with gangrene, right leg
I70.562	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with gangrene, left leg
I70.563	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with gangrene, bilateral legs
I70.568	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with gangrene, other extremity
I70.569	Atherosclerosis of nonautologous biological bypass graft(s) of the extremities with gangrene, unspecified extremity
I70.59	Other atherosclerosis of nonautologous biological bypass graft(s) of the extremities
I70.591	Other atherosclerosis of nonautologous biological bypass graft(s) of the extremities, right leg
I70.592	Other atherosclerosis of nonautologous biological bypass graft(s) of the extremities, left leg
I70.593	Other atherosclerosis of nonautologous biological bypass graft(s) of the extremities, bilateral legs
I70.598	Other atherosclerosis of nonautologous biological bypass graft(s) of the extremities, other extremity
I70.599	Other atherosclerosis of nonautologous biological bypass graft(s) of the extremities, unspecified extremity
I70.6	Atherosclerosis of nonbiological bypass graft(s) of the extremities
I70.60	Unspecified atherosclerosis of nonbiological bypass graft(s) of the extremities
I70.601	Unspecified atherosclerosis of nonbiological bypass graft(s) of the extremities, right leg
I70.602	Unspecified atherosclerosis of nonbiological bypass graft(s) of the extremities, left leg
I70.603	Unspecified atherosclerosis of nonbiological bypass graft(s) of the extremities, bilateral legs
I70.608	Unspecified atherosclerosis of nonbiological bypass graft(s) of the extremities, other extremity
I70.609	Unspecified atherosclerosis of nonbiological bypass graft(s) of the extremities, unspecified extremity
I70.61	Atherosclerosis of nonbiological bypass graft(s) of the extremities with intermittent claudication
I70.611	Atherosclerosis of nonbiological bypass graft(s) of the extremities with intermittent claudication, right leg
I70.612	Atherosclerosis of nonbiological bypass graft(s) of the extremities with intermittent claudication, left leg
I70.613	Atherosclerosis of nonbiological bypass graft(s) of the extremities with intermittent claudication, bilateral legs
I70.618	Atherosclerosis of nonbiological bypass graft(s) of the extremities with intermittent claudication, other extremity
I70.619	Atherosclerosis of nonbiological bypass graft(s) of the extremities with intermittent claudication, unspecified extremity
I70.62	Atherosclerosis of nonbiological bypass graft(s) of the extremities with rest pain
I70.621	Atherosclerosis of nonbiological bypass graft(s) of the extremities with rest pain, right leg
I70.622	Atherosclerosis of nonbiological bypass graft(s) of the extremities with rest pain, left leg
I70.623	Atherosclerosis of nonbiological bypass graft(s) of the extremities with rest pain, bilateral legs
I70.628	Atherosclerosis of nonbiological bypass graft(s) of the extremities with rest pain, other extremity
I70.629	Atherosclerosis of nonbiological bypass graft(s) of the extremities with rest pain, unspecified extremity
I70.63	Atherosclerosis of nonbiological bypass graft(s) of the right leg with ulceration
I70.631	Atherosclerosis of nonbiological bypass graft(s) of the right leg with ulceration of thigh
I70.632	Atherosclerosis of nonbiological bypass graft(s) of the right leg with ulceration of calf
I70.633	Atherosclerosis of nonbiological bypass graft(s) of the right leg with ulceration of ankle
I70.634	Atherosclerosis of nonbiological bypass graft(s) of the right leg with ulceration of heel and midfoot
I70.635	Atherosclerosis of nonbiological bypass graft(s) of the right leg with ulceration of other part of foot
I70.638	Atherosclerosis of nonbiological bypass graft(s) of the right leg with ulceration of other part of lower leg
I70.639	Atherosclerosis of nonbiological bypass graft(s) of the right leg with ulceration of unspecified site
I70.64	Atherosclerosis of nonbiological bypass graft(s) of the left leg with ulceration
I70.641	Atherosclerosis of nonbiological bypass graft(s) of the left leg with ulceration of thigh
I70.642	Atherosclerosis of nonbiological bypass graft(s) of the left leg with ulceration of calf
I70.643	Atherosclerosis of nonbiological bypass graft(s) of the left leg with ulceration of ankle
I70.644	Atherosclerosis of nonbiological bypass graft(s) of the left leg with ulceration of heel and midfoot
I70.645	Atherosclerosis of nonbiological bypass graft(s) of the left leg with ulceration of other part of foot
I70.648	Atherosclerosis of nonbiological bypass graft(s) of the left leg with ulceration of other part of lower leg
I70.649	Atherosclerosis of nonbiological bypass graft(s) of the left leg with ulceration of unspecified site
I70.65	Atherosclerosis of nonbiological bypass graft(s) of other extremity with ulceration
I70.66	Atherosclerosis of nonbiological bypass graft(s) of the extremities with gangrene
I70.661	Atherosclerosis of nonbiological bypass graft(s) of the extremities with gangrene, right leg
I70.662	Atherosclerosis of nonbiological bypass graft(s) of the extremities with gangrene, left leg
I70.663	Atherosclerosis of nonbiological bypass graft(s) of the extremities with gangrene, bilateral legs
I70.668	Atherosclerosis of nonbiological bypass graft(s) of the extremities with gangrene, other extremity
I70.669	Atherosclerosis of nonbiological bypass graft(s) of the extremities with gangrene, unspecified extremity
I70.69	Other atherosclerosis of nonbiological bypass graft(s) of the extremities
I70.691	Other atherosclerosis of nonbiological bypass graft(s) of the extremities, right leg
I70.692	Other atherosclerosis of nonbiological bypass graft(s) of the extremities, left leg
I70.693	Other atherosclerosis of nonbiological bypass graft(s) of the extremities, bilateral legs
I70.698	Other atherosclerosis of nonbiological bypass graft(s) of the extremities, other extremity
I70.699	Other atherosclerosis of nonbiological bypass graft(s) of the extremities, unspecified extremity
I70.7	Atherosclerosis of other type of bypass graft(s) of the extremities
I70.70	Unspecified atherosclerosis of other type of bypass graft(s) of the extremities
I70.701	Unspecified atherosclerosis of other type of bypass graft(s) of the extremities, right leg
I70.702	Unspecified atherosclerosis of other type of bypass graft(s) of the extremities, left leg
I70.703	Unspecified atherosclerosis of other type of bypass graft(s) of the extremities, bilateral legs
I70.708	Unspecified atherosclerosis of other type of bypass graft(s) of the extremities, other extremity
I70.709	Unspecified atherosclerosis of other type of bypass graft(s) of the extremities, unspecified extremity
I70.71	Atherosclerosis of other type of bypass graft(s) of the extremities with intermittent claudication
I70.711	Atherosclerosis of other type of bypass graft(s) of the extremities with intermittent claudication, right leg
I70.712	Atherosclerosis of other type of bypass graft(s) of the extremities with intermittent claudication, left leg
I70.713	Atherosclerosis of other type of bypass graft(s) of the extremities with intermittent claudication, bilateral legs
I70.718	Atherosclerosis of other type of bypass graft(s) of the extremities with intermittent claudication, other extremity
I70.719	Atherosclerosis of other type of bypass graft(s) of the extremities with intermittent claudication, unspecified extremity
I70.72	Atherosclerosis of other type of bypass graft(s) of the extremities with rest pain
I70.721	Atherosclerosis of other type of bypass graft(s) of the extremities with rest pain, right leg
I70.722	Atherosclerosis of other type of bypass graft(s) of the extremities with rest pain, left leg
I70.723	Atherosclerosis of other type of bypass graft(s) of the extremities with rest pain, bilateral legs
I70.728	Atherosclerosis of other type of bypass graft(s) of the extremities with rest pain, other extremity
I70.729	Atherosclerosis of other type of bypass graft(s) of the extremities with rest pain, unspecified extremity
I70.73	Atherosclerosis of other type of bypass graft(s) of the right leg with ulceration
I70.731	Atherosclerosis of other type of bypass graft(s) of the right leg with ulceration of thigh
I70.732	Atherosclerosis of other type of bypass graft(s) of the right leg with ulceration of calf
I70.733	Atherosclerosis of other type of bypass graft(s) of the right leg with ulceration of ankle
I70.734	Atherosclerosis of other type of bypass graft(s) of the right leg with ulceration of heel and midfoot
I70.735	Atherosclerosis of other type of bypass graft(s) of the right leg with ulceration of other part of foot
I70.738	Atherosclerosis of other type of bypass graft(s) of the right leg with ulceration of other part of lower leg
I70.739	Atherosclerosis of other type of bypass graft(s) of the right leg with ulceration of unspecified site
I70.74	Atherosclerosis of other type of bypass graft(s) of the left leg with ulceration
I70.741	Atherosclerosis of other type of bypass graft(s) of the left leg with ulceration of thigh
I70.742	Atherosclerosis of other type of bypass graft(s) of the left leg with ulceration of calf
I70.743	Atherosclerosis of other type of bypass graft(s) of the left leg with ulceration of ankle
I70.744	Atherosclerosis of other type of bypass graft(s) of the left leg with ulceration of heel and midfoot
I70.745	Atherosclerosis of other type of bypass graft(s) of the left leg with ulceration of other part of foot
I70.748	Atherosclerosis of other type of bypass graft(s) of the left leg with ulceration of other part of lower leg
I70.749	Atherosclerosis of other type of bypass graft(s) of the left leg with ulceration of unspecified site
I70.75	Atherosclerosis of other type of bypass graft(s) of other extremity with ulceration
I70.76	Atherosclerosis of other type of bypass graft(s) of the extremities with gangrene
I70.761	Atherosclerosis of other type of bypass graft(s) of the extremities with gangrene, right leg
I70.762	Atherosclerosis of other type of bypass graft(s) of the extremities with gangrene, left leg
I70.763	Atherosclerosis of other type of bypass graft(s) of the extremities with gangrene, bilateral legs
I70.768	Atherosclerosis of other type of bypass graft(s) of the extremities with gangrene, other extremity
I70.769	Atherosclerosis of other type of bypass graft(s) of the extremities with gangrene, unspecified extremity
I70.79	Other atherosclerosis of other type of bypass graft(s) of the extremities
I70.791	Other atherosclerosis of other type of bypass graft(s) of the extremities, right leg
I70.792	Other atherosclerosis of other type of bypass graft(s) of the extremities, left leg
I70.793	Other atherosclerosis of other type of bypass graft(s) of the extremities, bilateral legs
I70.798	Other atherosclerosis of other type of bypass graft(s) of the extremities, other extremity
I70.799	Other atherosclerosis of other type of bypass graft(s) of the extremities, unspecified extremity
I70.8	Atherosclerosis of other arteries
I70.9	Other and unspecified atherosclerosis
I70.90	Unspecified atherosclerosis
I70.91	Generalized atherosclerosis
I70.92	Chronic total occlusion of artery of the extremities
Z95.1	Presence of aortocoronary bypass graft
Z95.820	Peripheral vascular angioplasty status with implants and grafts
Z98.61	Coronary angioplasty status
Z98.62	Peripheral vascular angioplasty status
Heterozygous familial hypercholesterolemia
E78.01	Familial hypercholesterolemia
Hypercholesterolemia
E78.0	Pure hypercholesterolemia
E78.00	Pure hypercholesterolemia, unspecified
E78.01	Familial hypercholesterolemia
Hyperlipidemia
E78.2	Mixed hyperlipidemia
E78.4	Other hyperlipidemia
E78.49	Other hyperlipidemia
E78.5	Hyperlipidemia, unspecified
Increased risk of atherosclerotic cardiovascular disease
E08	Diabetes mellitus due to underlying condition
E08.0	Diabetes mellitus due to underlying condition with hyperosmolarity
E08.00	Diabetes mellitus due to underlying condition with hyperosmolarity without nonketotic hyperglycemic-hyperosmolar coma (NKHHc)
E08.01	Diabetes mellitus due to underlying condition with hyperosmolarity with coma
E08.1	Diabetes mellitus due to underlying condition with ketoacidosis
E08.10	Diabetes mellitus due to underlying condition with ketoacidosis without coma
E08.11	Diabetes mellitus due to underlying condition with ketoacidosis with coma
E08.2	Diabetes mellitus due to underlying condition with kidney complications
E08.21	Diabetes mellitus due to underlying condition with diabetic nephropathy
E08.22	Diabetes mellitus due to underlying condition with diabetic chronic kidney disease
E08.29	Diabetes mellitus due to underlying condition with other diabetic kidney complication
E08.3	Diabetes mellitus due to underlying condition with ophthalmic complications
E08.31	Diabetes mellitus due to underlying condition with unspecified diabetic retinopathy
E08.311	Diabetes mellitus due to underlying condition with unspecified diabetic retinopathy with macular edema
E08.319	Diabetes mellitus due to underlying condition with unspecified diabetic retinopathy without macular edema
E08.32	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy
E08.321	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy with macular edema
E08.3211	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy with macular edema, right eye
E08.3212	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy with macular edema, left eye
E08.3213	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy with macular edema, bilateral
E08.3219	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy with macular edema, unspecified eye
E08.329	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy without macular edema
E08.3291	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy without macular edema, right eye
E08.3292	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy without macular edema, left eye
E08.3293	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy without macular edema, bilateral
E08.3299	Diabetes mellitus due to underlying condition with mild nonproliferative diabetic retinopathy without macular edema, unspecified eye
E08.33	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy
E08.331	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy with macular edema
E08.3311	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy with macular edema, right eye
E08.3312	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy with macular edema, left eye
E08.3313	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy with macular edema, bilateral
E08.3319	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy with macular edema, unspecified eye
E08.339	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy without macular edema
E08.3391	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy without macular edema, right eye
E08.3392	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy without macular edema, left eye
E08.3393	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy without macular edema, bilateral
E08.3399	Diabetes mellitus due to underlying condition with moderate nonproliferative diabetic retinopathy without macular edema, unspecified eye
E08.34	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy
E08.341	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy with macular edema
E08.3411	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy with macular edema, right eye
E08.3412	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy with macular edema, left eye
E08.3413	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy with macular edema, bilateral
E08.3419	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy with macular edema, unspecified eye
E08.349	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy without macular edema
E08.3491	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy without macular edema, right eye
E08.3492	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy without macular edema, left eye
E08.3493	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy without macular edema, bilateral
E08.3499	Diabetes mellitus due to underlying condition with severe nonproliferative diabetic retinopathy without macular edema, unspecified eye
E08.35	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy
E08.351	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with macular edema
E08.3511	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with macular edema, right eye
E08.3512	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with macular edema, left eye
E08.3513	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with macular edema, bilateral
E08.3519	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with macular edema, unspecified eye
E08.352	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment involving the macula
E08.3521	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment involving the macula, right eye
E08.3522	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment involving the macula, left eye
E08.3523	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment involving the macula, bilateral
E08.3529	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment involving the macula, unspecified eye
E08.353	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment not involving the macula
E08.3531	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, right eye
E08.3532	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, left eye
E08.3533	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, bilateral
E08.3539	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, unspecified eye
E08.354	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment
E08.3541	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, right eye
E08.3542	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, left eye
E08.3543	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, bilateral
E08.3549	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, unspecified eye
E08.355	Diabetes mellitus due to underlying condition with stable proliferative diabetic retinopathy
E08.3551	Diabetes mellitus due to underlying condition with stable proliferative diabetic retinopathy, right eye
E08.3552	Diabetes mellitus due to underlying condition with stable proliferative diabetic retinopathy, left eye
E08.3553	Diabetes mellitus due to underlying condition with stable proliferative diabetic retinopathy, bilateral
E08.3559	Diabetes mellitus due to underlying condition with stable proliferative diabetic retinopathy, unspecified eye
E08.359	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy without macular edema
E08.3591	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy without macular edema, right eye
E08.3592	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy without macular edema, left eye
E08.3593	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy without macular edema, bilateral
E08.3599	Diabetes mellitus due to underlying condition with proliferative diabetic retinopathy without macular edema, unspecified eye
E08.36	Diabetes mellitus due to underlying condition with diabetic cataract
E08.37	Diabetes mellitus due to underlying condition with diabetic macular edema, resolved following treatment
E08.37x1	Diabetes mellitus due to underlying condition with diabetic macular edema, resolved following treatment, right eye
E08.37x2	Diabetes mellitus due to underlying condition with diabetic macular edema, resolved following treatment, left eye
E08.37x3	Diabetes mellitus due to underlying condition with diabetic macular edema, resolved following treatment, bilateral
E08.37x9	Diabetes mellitus due to underlying condition with diabetic macular edema, resolved following treatment, unspecified eye
E08.39	Diabetes mellitus due to underlying condition with other diabetic ophthalmic complication
E08.4	Diabetes mellitus due to underlying condition with neurological complications
E08.40	Diabetes mellitus due to underlying condition with diabetic neuropathy, unspecified
E08.41	Diabetes mellitus due to underlying condition with diabetic mononeuropathy
E08.42	Diabetes mellitus due to underlying condition with diabetic polyneuropathy
E08.43	Diabetes mellitus due to underlying condition with diabetic autonomic (poly)neuropathy
E08.44	Diabetes mellitus due to underlying condition with diabetic amyotrophy
E08.49	Diabetes mellitus due to underlying condition with other diabetic neurological complication
E08.5	Diabetes mellitus due to underlying condition with circulatory complications
E08.51	Diabetes mellitus due to underlying condition with diabetic peripheral angiopathy without gangrene
E08.52	Diabetes mellitus due to underlying condition with diabetic peripheral angiopathy with gangrene
E08.59	Diabetes mellitus due to underlying condition with other circulatory complications
E08.6	Diabetes mellitus due to underlying condition with other specified complications
E08.61	Diabetes mellitus due to underlying condition with diabetic arthropathy
E08.610	Diabetes mellitus due to underlying condition with diabetic neuropathic arthropathy
E08.618	Diabetes mellitus due to underlying condition with other diabetic arthropathy
E08.62	Diabetes mellitus due to underlying condition with skin complications
E08.620	Diabetes mellitus due to underlying condition with diabetic dermatitis
E08.621	Diabetes mellitus due to underlying condition with foot ulcer
E08.622	Diabetes mellitus due to underlying condition with other skin ulcer
E08.628	Diabetes mellitus due to underlying condition with other skin complications
E08.63	Diabetes mellitus due to underlying condition with oral complications
E08.630	Diabetes mellitus due to underlying condition with periodontal disease
E08.638	Diabetes mellitus due to underlying condition with other oral complications
E08.64	Diabetes mellitus due to underlying condition with hypoglycemia
E08.641	Diabetes mellitus due to underlying condition with hypoglycemia with coma
E08.649	Diabetes mellitus due to underlying condition with hypoglycemia without coma
E08.65	Diabetes mellitus due to underlying condition with hyperglycemia
E08.69	Diabetes mellitus due to underlying condition with other specified complication
E08.8	Diabetes mellitus due to underlying condition with unspecified complications
E08.9	Diabetes mellitus due to underlying condition without complications
E09	Drug or chemical induced diabetes mellitus
E09.0	Drug or chemical induced diabetes mellitus with hyperosmolarity
E09.00	Drug or chemical induced diabetes mellitus with hyperosmolarity without nonketotic hyperglycemic-hyperosmolar coma (NKHHc)
E09.01	Drug or chemical induced diabetes mellitus with hyperosmolarity with coma
E09.1	Drug or chemical induced diabetes mellitus with ketoacidosis
E09.10	Drug or chemical induced diabetes mellitus with ketoacidosis without coma
E09.11	Drug or chemical induced diabetes mellitus with ketoacidosis with coma
E09.2	Drug or chemical induced diabetes mellitus with kidney complications
E09.21	Drug or chemical induced diabetes mellitus with diabetic nephropathy
E09.22	Drug or chemical induced diabetes mellitus with diabetic chronic kidney disease
E09.29	Drug or chemical induced diabetes mellitus with other diabetic kidney complication
E09.3	Drug or chemical induced diabetes mellitus with ophthalmic complications
E09.31	Drug or chemical induced diabetes mellitus with unspecified diabetic retinopathy
E09.311	Drug or chemical induced diabetes mellitus with unspecified diabetic retinopathy with macular edema
E09.319	Drug or chemical induced diabetes mellitus with unspecified diabetic retinopathy without macular edema
E09.32	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy
E09.321	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema
E09.3211	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, right eye
E09.3212	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, left eye
E09.3213	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, bilateral
E09.3219	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, unspecified eye
E09.329	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema
E09.3291	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, right eye
E09.3292	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, left eye
E09.3293	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, bilateral
E09.3299	Drug or chemical induced diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, unspecified eye
E09.33	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy
E09.331	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema
E09.3311	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, right eye
E09.3312	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, left eye
E09.3313	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, bilateral
E09.3319	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, unspecified eye
E09.339	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema
E09.3391	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, right eye
E09.3392	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, left eye
E09.3393	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, bilateral
E09.3399	Drug or chemical induced diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, unspecified eye
E09.34	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy
E09.341	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema
E09.3411	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, right eye
E09.3412	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, left eye
E09.3413	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, bilateral
E09.3419	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, unspecified eye
E09.349	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema
E09.3491	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, right eye
E09.3492	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, left eye
E09.3493	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, bilateral
E09.3499	Drug or chemical induced diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, unspecified eye
E09.35	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy
E09.351	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with macular edema
E09.3511	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with macular edema, right eye
E09.3512	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with macular edema, left eye
E09.3513	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with macular edema, bilateral
E09.3519	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with macular edema, unspecified eye
E09.352	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula
E09.3521	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, right eye
E09.3522	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, left eye
E09.3523	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, bilateral
E09.3529	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, unspecified eye
E09.353	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula
E09.3531	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, right eye
E09.3532	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, left eye
E09.3533	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, bilateral
E09.3539	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, unspecified eye
E09.354	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment
E09.3541	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, right eye
E09.3542	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, left eye
E09.3543	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, bilateral
E09.3549	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, unspecified eye
E09.355	Drug or chemical induced diabetes mellitus with stable proliferative diabetic retinopathy
E09.3551	Drug or chemical induced diabetes mellitus with stable proliferative diabetic retinopathy, right eye
E09.3552	Drug or chemical induced diabetes mellitus with stable proliferative diabetic retinopathy, left eye
E09.3553	Drug or chemical induced diabetes mellitus with stable proliferative diabetic retinopathy, bilateral
E09.3559	Drug or chemical induced diabetes mellitus with stable proliferative diabetic retinopathy, unspecified eye
E09.359	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy without macular edema
E09.3591	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy without macular edema, right eye
E09.3592	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy without macular edema, left eye
E09.3593	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy without macular edema, bilateral
E09.3599	Drug or chemical induced diabetes mellitus with proliferative diabetic retinopathy without macular edema, unspecified eye
E09.36	Drug or chemical induced diabetes mellitus with diabetic cataract
E09.37	Drug or chemical induced diabetes mellitus with diabetic macular edema, resolved following treatment
E09.37x1	Drug or chemical induced diabetes mellitus with diabetic macular edema, resolved following treatment, right eye
E09.37x2	Drug or chemical induced diabetes mellitus with diabetic macular edema, resolved following treatment, left eye
E09.37x3	Drug or chemical induced diabetes mellitus with diabetic macular edema, resolved following treatment, bilateral
E09.37x9	Drug or chemical induced diabetes mellitus with diabetic macular edema, resolved following treatment, unspecified eye
E09.39	Drug or chemical induced diabetes mellitus with other diabetic ophthalmic complication
E09.4	Drug or chemical induced diabetes mellitus with neurological complications
E09.40	Drug or chemical induced diabetes mellitus with neurological complications with diabetic neuropathy, unspecified
E09.41	Drug or chemical induced diabetes mellitus with neurological complications with diabetic mononeuropathy
E09.42	Drug or chemical induced diabetes mellitus with neurological complications with diabetic polyneuropathy
E09.43	Drug or chemical induced diabetes mellitus with neurological complications with diabetic autonomic (poly)neuropathy
E09.44	Drug or chemical induced diabetes mellitus with neurological complications with diabetic amyotrophy
E09.49	Drug or chemical induced diabetes mellitus with neurological complications with other diabetic neurological complication
E09.5	Drug or chemical induced diabetes mellitus with circulatory complications
E09.51	Drug or chemical induced diabetes mellitus with diabetic peripheral angiopathy without gangrene
E09.52	Drug or chemical induced diabetes mellitus with diabetic peripheral angiopathy with gangrene
E09.59	Drug or chemical induced diabetes mellitus with other circulatory complications
E09.6	Drug or chemical induced diabetes mellitus with other specified complications
E09.61	Drug or chemical induced diabetes mellitus with diabetic arthropathy
E09.610	Drug or chemical induced diabetes mellitus with diabetic neuropathic arthropathy
E09.618	Drug or chemical induced diabetes mellitus with other diabetic arthropathy
E09.62	Drug or chemical induced diabetes mellitus with skin complications
E09.620	Drug or chemical induced diabetes mellitus with diabetic dermatitis
E09.621	Drug or chemical induced diabetes mellitus with foot ulcer
E09.622	Drug or chemical induced diabetes mellitus with other skin ulcer
E09.628	Drug or chemical induced diabetes mellitus with other skin complications
E09.63	Drug or chemical induced diabetes mellitus with oral complications
E09.630	Drug or chemical induced diabetes mellitus with periodontal disease
E09.638	Drug or chemical induced diabetes mellitus with other oral complications
E09.64	Drug or chemical induced diabetes mellitus with hypoglycemia
E09.641	Drug or chemical induced diabetes mellitus with hypoglycemia with coma
E09.649	Drug or chemical induced diabetes mellitus with hypoglycemia without coma
E09.65	Drug or chemical induced diabetes mellitus with hyperglycemia
E09.69	Drug or chemical induced diabetes mellitus with other specified complication
E09.8	Drug or chemical induced diabetes mellitus with unspecified complications
E09.9	Drug or chemical induced diabetes mellitus without complications
E10	Type 1 diabetes mellitus
E10.1	Type 1 diabetes mellitus with ketoacidosis
E10.10	Type 1 diabetes mellitus with ketoacidosis without coma
E10.11	Type 1 diabetes mellitus with ketoacidosis with coma
E10.2	Type 1 diabetes mellitus with kidney complications
E10.21	Type 1 diabetes mellitus with diabetic nephropathy
E10.22	Type 1 diabetes mellitus with diabetic chronic kidney disease
E10.29	Type 1 diabetes mellitus with other diabetic kidney complication
E10.3	Type 1 diabetes mellitus with ophthalmic complications
E10.31	Type 1 diabetes mellitus with unspecified diabetic retinopathy
E10.311	Type 1 diabetes mellitus with unspecified diabetic retinopathy with macular edema
E10.319	Type 1 diabetes mellitus with unspecified diabetic retinopathy without macular edema
E10.32	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy
E10.321	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema
E10.3211	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, right eye
E10.3212	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, left eye
E10.3213	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, bilateral
E10.3219	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, unspecified eye
E10.329	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema
E10.3291	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, right eye
E10.3292	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, left eye
E10.3293	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, bilateral
E10.3299	Type 1 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, unspecified eye
E10.33	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy
E10.331	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema
E10.3311	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, right eye
E10.3312	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, left eye
E10.3313	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, bilateral
E10.3319	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, unspecified eye
E10.339	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema
E10.3391	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, right eye
E10.3392	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, left eye
E10.3393	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, bilateral
E10.3399	Type 1 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, unspecified eye
E10.34	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy
E10.341	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema
E10.3411	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, right eye
E10.3412	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, left eye
E10.3413	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, bilateral
E10.3419	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, unspecified eye
E10.349	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema
E10.3491	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, right eye
E10.3492	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, left eye
E10.3493	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, bilateral
E10.3499	Type 1 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, unspecified eye
E10.35	Type 1 diabetes mellitus with proliferative diabetic retinopathy
E10.351	Type 1 diabetes mellitus with proliferative diabetic retinopathy with macular edema
E10.3511	Type 1 diabetes mellitus with proliferative diabetic retinopathy with macular edema, right eye
E10.3512	Type 1 diabetes mellitus with proliferative diabetic retinopathy with macular edema, left eye
E10.3513	Type 1 diabetes mellitus with proliferative diabetic retinopathy with macular edema, bilateral
E10.3519	Type 1 diabetes mellitus with proliferative diabetic retinopathy with macular edema, unspecified eye
E10.352	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula
E10.3521	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, right eye
E10.3522	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, left eye
E10.3523	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, bilateral
E10.3529	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, unspecified eye
E10.353	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula
E10.3531	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, right eye
E10.3532	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, left eye
E10.3533	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, bilateral
E10.3539	Type 1 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, unspecified eye
E10.354	Type 1 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment
E10.3541	Type 1 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, right eye
E10.3542	Type 1 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, left eye
E10.3543	Type 1 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, bilateral
E10.3549	Type 1 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, unspecified eye
E10.355	Type 1 diabetes mellitus with stable proliferative diabetic retinopathy
E10.3551	Type 1 diabetes mellitus with stable proliferative diabetic retinopathy, right eye
E10.3552	Type 1 diabetes mellitus with stable proliferative diabetic retinopathy, left eye
E10.3553	Type 1 diabetes mellitus with stable proliferative diabetic retinopathy, bilateral
E10.3559	Type 1 diabetes mellitus with stable proliferative diabetic retinopathy, unspecified eye
E10.359	Type 1 diabetes mellitus with proliferative diabetic retinopathy without macular edema
E10.3591	Type 1 diabetes mellitus with proliferative diabetic retinopathy without macular edema, right eye
E10.3592	Type 1 diabetes mellitus with proliferative diabetic retinopathy without macular edema, left eye
E10.3593	Type 1 diabetes mellitus with proliferative diabetic retinopathy without macular edema, bilateral
E10.3599	Type 1 diabetes mellitus with proliferative diabetic retinopathy without macular edema, unspecified eye
E10.36	Type 1 diabetes mellitus with diabetic cataract
E10.37	Type 1 diabetes mellitus with diabetic macular edema, resolved following treatment
E10.37x1	Type 1 diabetes mellitus with diabetic macular edema, resolved following treatment, right eye
E10.37x2	Type 1 diabetes mellitus with diabetic macular edema, resolved following treatment, left eye
E10.37x3	Type 1 diabetes mellitus with diabetic macular edema, resolved following treatment, bilateral
E10.37x9	Type 1 diabetes mellitus with diabetic macular edema, resolved following treatment, unspecified eye
E10.39	Type 1 diabetes mellitus with other diabetic ophthalmic complication
E10.4	Type 1 diabetes mellitus with neurological complications
E10.40	Type 1 diabetes mellitus with diabetic neuropathy, unspecified
E10.41	Type 1 diabetes mellitus with diabetic mononeuropathy
E10.42	Type 1 diabetes mellitus with diabetic polyneuropathy
E10.43	Type 1 diabetes mellitus with diabetic autonomic (poly)neuropathy
E10.44	Type 1 diabetes mellitus with diabetic amyotrophy
E10.49	Type 1 diabetes mellitus with other diabetic neurological complication
E10.5	Type 1 diabetes mellitus with circulatory complications
E10.51	Type 1 diabetes mellitus with diabetic peripheral angiopathy without gangrene
E10.52	Type 1 diabetes mellitus with diabetic peripheral angiopathy with gangrene
E10.59	Type 1 diabetes mellitus with other circulatory complications
E10.6	Type 1 diabetes mellitus with other specified complications
E10.61	Type 1 diabetes mellitus with diabetic arthropathy
E10.610	Type 1 diabetes mellitus with diabetic neuropathic arthropathy
E10.618	Type 1 diabetes mellitus with other diabetic arthropathy
E10.62	Type 1 diabetes mellitus with skin complications
E10.620	Type 1 diabetes mellitus with diabetic dermatitis
E10.621	Type 1 diabetes mellitus with foot ulcer
E10.622	Type 1 diabetes mellitus with other skin ulcer
E10.628	Type 1 diabetes mellitus with other skin complications
E10.63	Type 1 diabetes mellitus with oral complications
E10.630	Type 1 diabetes mellitus with periodontal disease
E10.638	Type 1 diabetes mellitus with other oral complications
E10.64	Type 1 diabetes mellitus with hypoglycemia
E10.641	Type 1 diabetes mellitus with hypoglycemia with coma
E10.649	Type 1 diabetes mellitus with hypoglycemia without coma
E10.65	Type 1 diabetes mellitus with hyperglycemia
E10.69	Type 1 diabetes mellitus with other specified complication
E10.8	Type 1 diabetes mellitus with unspecified complications
E10.9	Type 1 diabetes mellitus without complications
E10.A	Type 1 diabetes mellitus, presymptomatic
E10.A0	Type 1 diabetes mellitus, presymptomatic, unspecified
E10.A1	Type 1 diabetes mellitus, presymptomatic, stage 1
E10.A2	Type 1 diabetes mellitus, presymptomatic, stage 2
E11	Type 2 diabetes mellitus
E11.0	Type 2 diabetes mellitus with hyperosmolarity
E11.00	Type 2 diabetes mellitus with hyperosmolarity without nonketotic hyperglycemic-hyperosmolar coma (NKHHc)
E11.01	Type 2 diabetes mellitus with hyperosmolarity with coma
E11.1	Type 2 diabetes mellitus with ketoacidosis
E11.10	Type 2 diabetes mellitus with ketoacidosis without coma
E11.11	Type 2 diabetes mellitus with ketoacidosis with coma
E11.2	Type 2 diabetes mellitus with kidney complications
E11.21	Type 2 diabetes mellitus with diabetic nephropathy
E11.22	Type 2 diabetes mellitus with diabetic chronic kidney disease
E11.29	Type 2 diabetes mellitus with other diabetic kidney complication
E11.3	Type 2 diabetes mellitus with ophthalmic complications
E11.31	Type 2 diabetes mellitus with unspecified diabetic retinopathy
E11.311	Type 2 diabetes mellitus with unspecified diabetic retinopathy with macular edema
E11.319	Type 2 diabetes mellitus with unspecified diabetic retinopathy without macular edema
E11.32	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy
E11.321	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema
E11.3211	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, right eye
E11.3212	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, left eye
E11.3213	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, bilateral
E11.3219	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, unspecified eye
E11.329	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema
E11.3291	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, right eye
E11.3292	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, left eye
E11.3293	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, bilateral
E11.3299	Type 2 diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, unspecified eye
E11.33	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy
E11.331	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema
E11.3311	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, right eye
E11.3312	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, left eye
E11.3313	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, bilateral
E11.3319	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, unspecified eye
E11.339	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema
E11.3391	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, right eye
E11.3392	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, left eye
E11.3393	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, bilateral
E11.3399	Type 2 diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, unspecified eye
E11.34	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy
E11.341	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema
E11.3411	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, right eye
E11.3412	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, left eye
E11.3413	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, bilateral
E11.3419	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, unspecified eye
E11.349	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema
E11.3491	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, right eye
E11.3492	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, left eye
E11.3493	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, bilateral
E11.3499	Type 2 diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, unspecified eye
E11.35	Type 2 diabetes mellitus with proliferative diabetic retinopathy
E11.351	Type 2 diabetes mellitus with proliferative diabetic retinopathy with macular edema
E11.3511	Type 2 diabetes mellitus with proliferative diabetic retinopathy with macular edema, right eye
E11.3512	Type 2 diabetes mellitus with proliferative diabetic retinopathy with macular edema, left eye
E11.3513	Type 2 diabetes mellitus with proliferative diabetic retinopathy with macular edema, bilateral
E11.3519	Type 2 diabetes mellitus with proliferative diabetic retinopathy with macular edema, unspecified eye
E11.352	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula
E11.3521	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, right eye
E11.3522	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, left eye
E11.3523	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, bilateral
E11.3529	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, unspecified eye
E11.353	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula
E11.3531	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, right eye
E11.3532	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, left eye
E11.3533	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, bilateral
E11.3539	Type 2 diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, unspecified eye
E11.354	Type 2 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment
E11.3541	Type 2 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, right eye
E11.3542	Type 2 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, left eye
E11.3543	Type 2 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, bilateral
E11.3549	Type 2 diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, unspecified eye
E11.355	Type 2 diabetes mellitus with stable proliferative diabetic retinopathy
E11.3551	Type 2 diabetes mellitus with stable proliferative diabetic retinopathy, right eye
E11.3552	Type 2 diabetes mellitus with stable proliferative diabetic retinopathy, left eye
E11.3553	Type 2 diabetes mellitus with stable proliferative diabetic retinopathy, bilateral
E11.3559	Type 2 diabetes mellitus with stable proliferative diabetic retinopathy, unspecified eye
E11.359	Type 2 diabetes mellitus with proliferative diabetic retinopathy without macular edema
E11.3591	Type 2 diabetes mellitus with proliferative diabetic retinopathy without macular edema, right eye
E11.3592	Type 2 diabetes mellitus with proliferative diabetic retinopathy without macular edema, left eye
E11.3593	Type 2 diabetes mellitus with proliferative diabetic retinopathy without macular edema, bilateral
E11.3599	Type 2 diabetes mellitus with proliferative diabetic retinopathy without macular edema, unspecified eye
E11.36	Type 2 diabetes mellitus with diabetic cataract
E11.37	Type 2 diabetes mellitus with diabetic macular edema, resolved following treatment
E11.37x1	Type 2 diabetes mellitus with diabetic macular edema, resolved following treatment, right eye
E11.37x2	Type 2 diabetes mellitus with diabetic macular edema, resolved following treatment, left eye
E11.37x3	Type 2 diabetes mellitus with diabetic macular edema, resolved following treatment, bilateral
E11.37x9	Type 2 diabetes mellitus with diabetic macular edema, resolved following treatment, unspecified eye
E11.39	Type 2 diabetes mellitus with other diabetic ophthalmic complication
E11.4	Type 2 diabetes mellitus with neurological complications
E11.40	Type 2 diabetes mellitus with diabetic neuropathy, unspecified
E11.41	Type 2 diabetes mellitus with diabetic mononeuropathy
E11.42	Type 2 diabetes mellitus with diabetic polyneuropathy
E11.43	Type 2 diabetes mellitus with diabetic autonomic (poly)neuropathy
E11.44	Type 2 diabetes mellitus with diabetic amyotrophy
E11.49	Type 2 diabetes mellitus with other diabetic neurological complication
E11.5	Type 2 diabetes mellitus with circulatory complications
E11.51	Type 2 diabetes mellitus with diabetic peripheral angiopathy without gangrene
E11.52	Type 2 diabetes mellitus with diabetic peripheral angiopathy with gangrene
E11.59	Type 2 diabetes mellitus with other circulatory complications
E11.6	Type 2 diabetes mellitus with other specified complications
E11.61	Type 2 diabetes mellitus with diabetic arthropathy
E11.610	Type 2 diabetes mellitus with diabetic neuropathic arthropathy
E11.618	Type 2 diabetes mellitus with other diabetic arthropathy
E11.62	Type 2 diabetes mellitus with skin complications
E11.620	Type 2 diabetes mellitus with diabetic dermatitis
E11.621	Type 2 diabetes mellitus with foot ulcer
E11.622	Type 2 diabetes mellitus with other skin ulcer
E11.628	Type 2 diabetes mellitus with other skin complications
E11.63	Type 2 diabetes mellitus with oral complications
E11.630	Type 2 diabetes mellitus with periodontal disease
E11.638	Type 2 diabetes mellitus with other oral complications
E11.64	Type 2 diabetes mellitus with hypoglycemia
E11.641	Type 2 diabetes mellitus with hypoglycemia with coma
E11.649	Type 2 diabetes mellitus with hypoglycemia without coma
E11.65	Type 2 diabetes mellitus with hyperglycemia
E11.69	Type 2 diabetes mellitus with other specified complication
E11.8	Type 2 diabetes mellitus with unspecified complications
E11.9	Type 2 diabetes mellitus without complications
E13	Other specified diabetes mellitus
E13.0	Other specified diabetes mellitus with hyperosmolarity
E13.00	Other specified diabetes mellitus with hyperosmolarity without nonketotic hyperglycemic-hyperosmolar coma (NKHHc)
E13.01	Other specified diabetes mellitus with hyperosmolarity with coma
E13.1	Other specified diabetes mellitus with ketoacidosis
E13.10	Other specified diabetes mellitus with ketoacidosis without coma
E13.11	Other specified diabetes mellitus with ketoacidosis with coma
E13.2	Other specified diabetes mellitus with kidney complications
E13.21	Other specified diabetes mellitus with diabetic nephropathy
E13.22	Other specified diabetes mellitus with diabetic chronic kidney disease
E13.29	Other specified diabetes mellitus with other diabetic kidney complication
E13.3	Other specified diabetes mellitus with ophthalmic complications
E13.31	Other specified diabetes mellitus with unspecified diabetic retinopathy
E13.311	Other specified diabetes mellitus with unspecified diabetic retinopathy with macular edema
E13.319	Other specified diabetes mellitus with unspecified diabetic retinopathy without macular edema
E13.32	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy
E13.321	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema
E13.3211	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, right eye
E13.3212	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, left eye
E13.3213	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, bilateral
E13.3219	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy with macular edema, unspecified eye
E13.329	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema
E13.3291	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, right eye
E13.3292	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, left eye
E13.3293	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, bilateral
E13.3299	Other specified diabetes mellitus with mild nonproliferative diabetic retinopathy without macular edema, unspecified eye
E13.33	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy
E13.331	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema
E13.3311	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, right eye
E13.3312	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, left eye
E13.3313	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, bilateral
E13.3319	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy with macular edema, unspecified eye
E13.339	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema
E13.3391	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, right eye
E13.3392	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, left eye
E13.3393	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, bilateral
E13.3399	Other specified diabetes mellitus with moderate nonproliferative diabetic retinopathy without macular edema, unspecified eye
E13.34	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy
E13.341	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema
E13.3411	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, right eye
E13.3412	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, left eye
E13.3413	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, bilateral
E13.3419	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy with macular edema, unspecified eye
E13.349	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema
E13.3491	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, right eye
E13.3492	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, left eye
E13.3493	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, bilateral
E13.3499	Other specified diabetes mellitus with severe nonproliferative diabetic retinopathy without macular edema, unspecified eye
E13.35	Other specified diabetes mellitus with proliferative diabetic retinopathy
E13.351	Other specified diabetes mellitus with proliferative diabetic retinopathy with macular edema
E13.3511	Other specified diabetes mellitus with proliferative diabetic retinopathy with macular edema, right eye
E13.3512	Other specified diabetes mellitus with proliferative diabetic retinopathy with macular edema, left eye
E13.3513	Other specified diabetes mellitus with proliferative diabetic retinopathy with macular edema, bilateral
E13.3519	Other specified diabetes mellitus with proliferative diabetic retinopathy with macular edema, unspecified eye
E13.352	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula
E13.3521	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, right eye
E13.3522	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, left eye
E13.3523	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, bilateral
E13.3529	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment involving the macula, unspecified eye
E13.353	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula
E13.3531	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, right eye
E13.3532	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, left eye
E13.3533	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, bilateral
E13.3539	Other specified diabetes mellitus with proliferative diabetic retinopathy with traction retinal detachment not involving the macula, unspecified eye
E13.354	Other specified diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment
E13.3541	Other specified diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, right eye
E13.3542	Other specified diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, left eye
E13.3543	Other specified diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, bilateral
E13.3549	Other specified diabetes mellitus with proliferative diabetic retinopathy with combined traction retinal detachment and rhegmatogenous retinal detachment, unspecified eye
E13.355	Other specified diabetes mellitus with stable proliferative diabetic retinopathy
E13.3551	Other specified diabetes mellitus with stable proliferative diabetic retinopathy, right eye
E13.3552	Other specified diabetes mellitus with stable proliferative diabetic retinopathy, left eye
E13.3553	Other specified diabetes mellitus with stable proliferative diabetic retinopathy, bilateral
E13.3559	Other specified diabetes mellitus with stable proliferative diabetic retinopathy, unspecified eye
E13.359	Other specified diabetes mellitus with proliferative diabetic retinopathy without macular edema
E13.3591	Other specified diabetes mellitus with proliferative diabetic retinopathy without macular edema, right eye
E13.3592	Other specified diabetes mellitus with proliferative diabetic retinopathy without macular edema, left eye
E13.3593	Other specified diabetes mellitus with proliferative diabetic retinopathy without macular edema, bilateral
E13.3599	Other specified diabetes mellitus with proliferative diabetic retinopathy without macular edema, unspecified eye
E13.36	Other specified diabetes mellitus with diabetic cataract
E13.37	Other specified diabetes mellitus with diabetic macular edema, resolved following treatment
E13.37x1	Other specified diabetes mellitus with diabetic macular edema, resolved following treatment, right eye
E13.37x2	Other specified diabetes mellitus with diabetic macular edema, resolved following treatment, left eye
E13.37x3	Other specified diabetes mellitus with diabetic macular edema, resolved following treatment, bilateral
E13.37x9	Other specified diabetes mellitus with diabetic macular edema, resolved following treatment, unspecified eye
E13.39	Other specified diabetes mellitus with other diabetic ophthalmic complication
E13.4	Other specified diabetes mellitus with neurological complications
E13.40	Other specified diabetes mellitus with diabetic neuropathy, unspecified
E13.41	Other specified diabetes mellitus with diabetic mononeuropathy
E13.42	Other specified diabetes mellitus with diabetic polyneuropathy
E13.43	Other specified diabetes mellitus with diabetic autonomic (poly)neuropathy
E13.44	Other specified diabetes mellitus with diabetic amyotrophy
E13.49	Other specified diabetes mellitus with other diabetic neurological complication
E13.5	Other specified diabetes mellitus with circulatory complications
E13.51	Other specified diabetes mellitus with diabetic peripheral angiopathy without gangrene
E13.52	Other specified diabetes mellitus with diabetic peripheral angiopathy with gangrene
E13.59	Other specified diabetes mellitus with other circulatory complications
E13.6	Other specified diabetes mellitus with other specified complications
E13.61	Other specified diabetes mellitus with diabetic arthropathy
E13.610	Other specified diabetes mellitus with diabetic neuropathic arthropathy
E13.618	Other specified diabetes mellitus with other diabetic arthropathy
E13.62	Other specified diabetes mellitus with skin complications
E13.620	Other specified diabetes mellitus with diabetic dermatitis
E13.621	Other specified diabetes mellitus with foot ulcer
E13.622	Other specified diabetes mellitus with other skin ulcer
E13.628	Other specified diabetes mellitus with other skin complications
E13.63	Other specified diabetes mellitus with oral complications
E13.630	Other specified diabetes mellitus with periodontal disease
E13.638	Other specified diabetes mellitus with other oral complications
E13.64	Other specified diabetes mellitus with hypoglycemia
E13.641	Other specified diabetes mellitus with hypoglycemia with coma
E13.649	Other specified diabetes mellitus with hypoglycemia without coma
E13.65	Other specified diabetes mellitus with hyperglycemia
E13.69	Other specified diabetes mellitus with other specified complication
E13.8	Other specified diabetes mellitus with unspecified complications
E13.9	Other specified diabetes mellitus without complications
E66	Overweight and obesity
E66.0	Obesity due to excess calories
E66.01	Morbid (severe) obesity due to excess calories
E66.09	Other obesity due to excess calories
E66.1	Drug-induced obesity
E66.2	Morbid (severe) obesity with alveolar hypoventilation
E66.8	Other obesity
E66.81	Obesity class
E66.811	Obesity, class 1
E66.812	Obesity, class 2
E66.813	Obesity, class 3
E66.89	Other obesity not elsewhere classified
E66.9	Obesity, unspecified
E78	Disorders of lipoprotein metabolism and other lipidemias
E78.0	Pure hypercholesterolemia
E78.00	Pure hypercholesterolemia, unspecified
E78.01	Familial hypercholesterolemia
E78.1	Pure hyperglyceridemia
E78.2	Mixed hyperlipidemia
E78.3	Hyperchylomicronemia
E78.4	Other hyperlipidemia
E78.41	Elevated lipoprotein(a)
E78.49	Other hyperlipidemia
E78.5	Hyperlipidemia, unspecified
E88.81	Metabolic syndrome and other insulin resistance
E88.810	Metabolic syndrome
E88.811	Insulin resistance syndrome, type A
E88.818	Other insulin resistance
E88.819	Insulin resistance, unspecified
F17	Nicotine dependence
F17.2	Nicotine dependence
F17.20	Nicotine dependence, unspecified
F17.200	Nicotine dependence, unspecified, uncomplicated
F17.203	Nicotine dependence unspecified, with withdrawal
F17.208	Nicotine dependence, unspecified, with other nicotine-induced disorders
F17.209	Nicotine dependence, unspecified, with unspecified nicotine-induced disorders
F17.21	Nicotine dependence, cigarettes
F17.210	Nicotine dependence, cigarettes, uncomplicated
F17.213	Nicotine dependence, cigarettes, with withdrawal
F17.218	Nicotine dependence, cigarettes, with other nicotine-induced disorders
F17.219	Nicotine dependence, cigarettes, with unspecified nicotine-induced disorders
H35.03	Hypertensive retinopathy
H35.031	Hypertensive retinopathy, right eye
H35.032	Hypertensive retinopathy, left eye
H35.033	Hypertensive retinopathy, bilateral
H35.039	Hypertensive retinopathy, unspecified eye
I10	Essential (primary) hypertension
I11	Hypertensive heart disease
I11.0	Hypertensive heart disease with heart failure
I11.9	Hypertensive heart disease without heart failure
I12	Hypertensive chronic kidney disease
I12.0	Hypertensive chronic kidney disease with stage 5 chronic kidney disease or end stage renal disease
I12.9	Hypertensive chronic kidney disease with stage 1 through stage 4 chronic kidney disease, or unspecified chronic kidney disease
I13	Hypertensive heart and chronic kidney disease
I13.0	Hypertensive heart and chronic kidney disease with heart failure and stage 1 through stage 4 chronic kidney disease, or unspecified chronic kidney disease
I13.1	Hypertensive heart and chronic kidney disease without heart failure
I13.10	Hypertensive heart and chronic kidney disease without heart failure, with stage 1 through stage 4 chronic kidney disease, or unspecified chronic kidney disease
I13.11	Hypertensive heart and chronic kidney disease without heart failure, with stage 5 chronic kidney disease, or end stage renal disease
I13.2	Hypertensive heart and chronic kidney disease with heart failure and with stage 5 chronic kidney disease, or end stage renal disease
I15	Secondary hypertension
I15.0	Renovascular hypertension
I15.1	Hypertension secondary to other renal disorders
I15.2	Hypertension secondary to endocrine disorders
I15.8	Other secondary hypertension
I15.9	Secondary hypertension, unspecified
I25.10	Atherosclerotic heart disease of native coronary artery without angina pectoris
I70.90	Unspecified atherosclerosis
O10	Pre-existing hypertension complicating pregnancy, childbirth and the puerperium
O10.0	Pre-existing essential hypertension complicating pregnancy, childbirth and the puerperium
O10.01	Pre-existing essential hypertension complicating pregnancy
O10.011	Pre-existing essential hypertension complicating pregnancy, first trimester
O10.012	Pre-existing essential hypertension complicating pregnancy, second trimester
O10.013	Pre-existing essential hypertension complicating pregnancy, third trimester
O10.019	Pre-existing essential hypertension complicating pregnancy, unspecified trimester
O10.02	Pre-existing essential hypertension complicating childbirth
O10.03	Pre-existing essential hypertension complicating the puerperium
O10.1	Pre-existing hypertensive heart disease complicating pregnancy, childbirth and the puerperium
O10.11	Pre-existing hypertensive heart disease complicating pregnancy
O10.111	Pre-existing hypertensive heart disease complicating pregnancy, first trimester
O10.112	Pre-existing hypertensive heart disease complicating pregnancy, second trimester
O10.113	Pre-existing hypertensive heart disease complicating pregnancy, third trimester
O10.119	Pre-existing hypertensive heart disease complicating pregnancy, unspecified trimester
O10.12	Pre-existing hypertensive heart disease complicating childbirth
O10.13	Pre-existing hypertensive heart disease complicating the puerperium
O10.2	Pre-existing hypertensive chronic kidney disease complicating pregnancy, childbirth and the puerperium
O10.21	Pre-existing hypertensive chronic kidney disease complicating pregnancy
O10.211	Pre-existing hypertensive chronic kidney disease complicating pregnancy, first trimester
O10.212	Pre-existing hypertensive chronic kidney disease complicating pregnancy, second trimester
O10.213	Pre-existing hypertensive chronic kidney disease complicating pregnancy, third trimester
O10.219	Pre-existing hypertensive chronic kidney disease complicating pregnancy, unspecified trimester
O10.22	Pre-existing hypertensive chronic kidney disease complicating childbirth
O10.23	Pre-existing hypertensive chronic kidney disease complicating the puerperium
O10.3	Pre-existing hypertensive heart and chronic kidney disease complicating pregnancy, childbirth and the puerperium
O10.31	Pre-existing hypertensive heart and chronic kidney disease complicating pregnancy
O10.311	Pre-existing hypertensive heart and chronic kidney disease complicating pregnancy, first trimester
O10.312	Pre-existing hypertensive heart and chronic kidney disease complicating pregnancy, second trimester
O10.313	Pre-existing hypertensive heart and chronic kidney disease complicating pregnancy, third trimester
O10.319	Pre-existing hypertensive heart and chronic kidney disease complicating pregnancy, unspecified trimester
O10.32	Pre-existing hypertensive heart and chronic kidney disease complicating childbirth
O10.33	Pre-existing hypertensive heart and chronic kidney disease complicating the puerperium
O10.4	Pre-existing secondary hypertension complicating pregnancy, childbirth and the puerperium
O10.41	Pre-existing secondary hypertension complicating pregnancy
O10.411	Pre-existing secondary hypertension complicating pregnancy, first trimester
O10.412	Pre-existing secondary hypertension complicating pregnancy, second trimester
O10.413	Pre-existing secondary hypertension complicating pregnancy, third trimester
O10.419	Pre-existing secondary hypertension complicating pregnancy, unspecified trimester
O10.42	Pre-existing secondary hypertension complicating childbirth
O10.43	Pre-existing secondary hypertension complicating the puerperium
O10.9	Unspecified pre-existing hypertension complicating pregnancy, childbirth and the puerperium
O10.91	Unspecified pre-existing hypertension complicating pregnancy
O10.911	Unspecified pre-existing hypertension complicating pregnancy, first trimester
O10.912	Unspecified pre-existing hypertension complicating pregnancy, second trimester
O10.913	Unspecified pre-existing hypertension complicating pregnancy, third trimester
O10.919	Unspecified pre-existing hypertension complicating pregnancy, unspecified trimester
O10.92	Unspecified pre-existing hypertension complicating childbirth
O10.93	Unspecified pre-existing hypertension complicating the puerperium
O11	Pre-existing hypertension with pre-eclampsia
O11.1	Pre-existing hypertension with pre-eclampsia, first trimester
O11.2	Pre-existing hypertension with pre-eclampsia, second trimester
O11.3	Pre-existing hypertension with pre-eclampsia, third trimester
O11.4	Pre-existing hypertension with pre-eclampsia, complicating childbirth
O11.5	Pre-existing hypertension with pre-eclampsia, complicating the puerperium
O11.9	Pre-existing hypertension with pre-eclampsia, unspecified trimester
O24	Diabetes mellitus in pregnancy, childbirth, and the puerperium
O24.0	Pre-existing type 1 diabetes mellitus, in pregnancy, childbirth and the puerperium
O24.01	Pre-existing type 1 diabetes mellitus, in pregnancy
O24.011	Pre-existing type 1 diabetes mellitus, in pregnancy, first trimester
O24.012	Pre-existing type 1 diabetes mellitus, in pregnancy, second trimester
O24.013	Pre-existing type 1 diabetes mellitus, in pregnancy, third trimester
O24.019	Pre-existing type 1 diabetes mellitus, in pregnancy, unspecified trimester
O24.02	Pre-existing type 1 diabetes mellitus, in childbirth
O24.03	Pre-existing type 1 diabetes mellitus, in the puerperium
O24.1	Pre-existing type 2 diabetes mellitus, in pregnancy, childbirth and the puerperium
O24.11	Pre-existing type 2 diabetes mellitus, in pregnancy
O24.111	Pre-existing type 2 diabetes mellitus, in pregnancy, first trimester
O24.112	Pre-existing type 2 diabetes mellitus, in pregnancy, second trimester
O24.113	Pre-existing type 2 diabetes mellitus, in pregnancy, third trimester
O24.119	Pre-existing type 2 diabetes mellitus, in pregnancy, unspecified trimester
O24.12	Pre-existing type 2 diabetes mellitus, in childbirth
O24.13	Pre-existing type 2 diabetes mellitus, in the puerperium
O24.3	Unspecified pre-existing diabetes mellitus in pregnancy, childbirth and the puerperium
O24.31	Unspecified pre-existing diabetes mellitus in pregnancy
O24.311	Unspecified pre-existing diabetes mellitus in pregnancy, first trimester
O24.312	Unspecified pre-existing diabetes mellitus in pregnancy, second trimester
O24.313	Unspecified pre-existing diabetes mellitus in pregnancy, third trimester
O24.319	Unspecified pre-existing diabetes mellitus in pregnancy, unspecified trimester
O24.32	Unspecified pre-existing diabetes mellitus in childbirth
O24.33	Unspecified pre-existing diabetes mellitus in the puerperium
O24.8	Other pre-existing diabetes mellitus in pregnancy, childbirth, and the puerperium
O24.81	Other pre-existing diabetes mellitus in pregnancy
O24.811	Other pre-existing diabetes mellitus in pregnancy, first trimester
O24.812	Other pre-existing diabetes mellitus in pregnancy, second trimester
O24.813	Other pre-existing diabetes mellitus in pregnancy, third trimester
O24.819	Other pre-existing diabetes mellitus in pregnancy, unspecified trimester
O24.82	Other pre-existing diabetes mellitus in childbirth
O24.83	Other pre-existing diabetes mellitus in the puerperium
O99.21	Obesity complicating pregnancy, childbirth, and the puerperium
O99.210	Obesity complicating pregnancy, unspecified trimester
O99.211	Obesity complicating pregnancy, first trimester
O99.212	Obesity complicating pregnancy, second trimester
O99.213	Obesity complicating pregnancy, third trimester
O99.214	Obesity complicating childbirth
O99.215	Obesity complicating the puerperium
O99.33	Tobacco use disorder complicating pregnancy, childbirth, and the puerperium
O99.330	Smoking (tobacco) complicating pregnancy, unspecified trimester
O99.331	Smoking (tobacco) complicating pregnancy, first trimester
O99.332	Smoking (tobacco) complicating pregnancy, second trimester
O99.333	Smoking (tobacco) complicating pregnancy, third trimester
O99.334	Smoking (tobacco) complicating childbirth
O99.335	Smoking (tobacco) complicating the puerperium
Z68.3	Body mass index [BMi] 30-39, adult
Z68.30	Body mass index [BMi] 30.0-30.9, adult
Z68.31	Body mass index [BMi] 31.0-31.9, adult
Z68.32	Body mass index [BMi] 32.0-32.9, adult
Z68.33	Body mass index [BMi] 33.0-33.9, adult
Z68.34	Body mass index [BMi] 34.0-34.9, adult
Z68.35	Body mass index [BMi] 35.0-35.9, adult
Z68.36	Body mass index [BMi] 36.0-36.9, adult
Z68.37	Body mass index [BMi] 37.0-37.9, adult
Z68.38	Body mass index [BMi] 38.0-38.9, adult
Z68.39	Body mass index [BMi] 39.0-39.9, adult
Z68.4	Body mass index [BMi] 40 or greater, adult
Z68.41	Body mass index [BMi] 40.0-44.9, adult
Z68.42	Body mass index [BMi] 45.0-49.9, adult
Z68.43	Body mass index [BMi] 50.0-59.9, adult
Z68.44	Body mass index [BMi] 60.0-69.9, adult
Z68.45	Body mass index [BMi] 70 or greater, adult
Z68.55	Body mass index [BMi] pediatric, 120% of the 95th percentile for age to less than 140% of the 95th percentile for age
Z68.56	Body mass index [BMi] pediatric, greater than or equal to 140% of the 95th percentile for age
Z72.0	Tobacco use
Z82.4	Family history of ischemic heart disease and other diseases of the circulatory system
Z82.41	Family history of sudden cardiac death
Z82.49	Family history of ischemic heart disease and other diseases of the circulatory system
Z86.31	Personal history of diabetic foot ulcer
Mixed hyperlipidemia
E78.2	Mixed hyperlipidemia
Treatment to slow progression of coronary artery disease
I25	Chronic ischemic heart disease
I25.1	Atherosclerotic heart disease of native coronary artery
I25.10	Atherosclerotic heart disease of native coronary artery without angina pectoris
I25.11	Atherosclerotic heart disease of native coronary artery with angina pectoris
I25.110	Atherosclerotic heart disease of native coronary artery with unstable angina pectoris
I25.111	Atherosclerotic heart disease of native coronary artery with angina pectoris with documented spasm
I25.112	Atherosclerotic heart disease of native coronary artery with refractory angina pectoris
I25.118	Atherosclerotic heart disease of native coronary artery with other forms of angina pectoris
I25.119	Atherosclerotic heart disease of native coronary artery with unspecified angina pectoris
I25.7	Atherosclerosis of coronary artery bypass graft(s) and coronary artery of transplanted heart with angina pectoris
I25.70	Atherosclerosis of coronary artery bypass graft(s), unspecified, with angina pectoris
I25.700	Atherosclerosis of coronary artery bypass graft(s), unspecified, with unstable angina pectoris
I25.701	Atherosclerosis of coronary artery bypass graft(s), unspecified, with angina pectoris with documented spasm
I25.702	Atherosclerosis of coronary artery bypass graft(s), unspecified, with refractory angina pectoris
I25.708	Atherosclerosis of coronary artery bypass graft(s), unspecified, with other forms of angina pectoris
I25.709	Atherosclerosis of coronary artery bypass graft(s), unspecified, with unspecified angina pectoris
I25.71	Atherosclerosis of autologous vein coronary artery bypass graft(s) with angina pectoris
I25.710	Atherosclerosis of autologous vein coronary artery bypass graft(s) with unstable angina pectoris
I25.711	Atherosclerosis of autologous vein coronary artery bypass graft(s) with angina pectoris with documented spasm
I25.712	Atherosclerosis of autologous vein coronary artery bypass graft(s) with refractory angina pectoris
I25.718	Atherosclerosis of autologous vein coronary artery bypass graft(s) with other forms of angina pectoris
I25.719	Atherosclerosis of autologous vein coronary artery bypass graft(s) with unspecified angina pectoris
I25.72	Atherosclerosis of autologous artery coronary artery bypass graft(s) with angina pectoris
I25.720	Atherosclerosis of autologous artery coronary artery bypass graft(s) with unstable angina pectoris
I25.721	Atherosclerosis of autologous artery coronary artery bypass graft(s) with angina pectoris with documented spasm
I25.722	Atherosclerosis of autologous artery coronary artery bypass graft(s) with refractory angina pectoris
I25.728	Atherosclerosis of autologous artery coronary artery bypass graft(s) with other forms of angina pectoris
I25.729	Atherosclerosis of autologous artery coronary artery bypass graft(s) with unspecified angina pectoris
I25.73	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with angina pectoris
I25.730	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with unstable angina pectoris
I25.731	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with angina pectoris with documented spasm
I25.732	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with refractory angina pectoris
I25.738	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with other forms of angina pectoris
I25.739	Atherosclerosis of nonautologous biological coronary artery bypass graft(s) with unspecified angina pectoris
I25.75	Atherosclerosis of native coronary artery of transplanted heart with angina pectoris
I25.750	Atherosclerosis of native coronary artery of transplanted heart with unstable angina
I25.751	Atherosclerosis of native coronary artery of transplanted heart with angina pectoris with documented spasm
I25.752	Atherosclerosis of native coronary artery of transplanted heart with refractory angina pectoris
I25.758	Atherosclerosis of native coronary artery of transplanted heart with other forms of angina pectoris
I25.759	Atherosclerosis of native coronary artery of transplanted heart with unspecified angina pectoris
I25.76	Atherosclerosis of bypass graft of coronary artery of transplanted heart with angina pectoris
I25.760	Atherosclerosis of bypass graft of coronary artery of transplanted heart with unstable angina
I25.761	Atherosclerosis of bypass graft of coronary artery of transplanted heart with angina pectoris with documented spasm
I25.762	Atherosclerosis of bypass graft of coronary artery of transplanted heart with refractory angina pectoris
I25.768	Atherosclerosis of bypass graft of coronary artery of transplanted heart with other forms of angina pectoris
I25.769	Atherosclerosis of bypass graft of coronary artery of transplanted heart with unspecified angina pectoris
I25.79	Atherosclerosis of other coronary artery bypass graft(s) with angina pectoris
I25.790	Atherosclerosis of other coronary artery bypass graft(s) with unstable angina pectoris
I25.791	Atherosclerosis of other coronary artery bypass graft(s) with angina pectoris with documented spasm
I25.792	Atherosclerosis of other coronary artery bypass graft(s) with refractory angina pectoris
I25.798	Atherosclerosis of other coronary artery bypass graft(s) with other forms of angina pectoris
I25.799	Atherosclerosis of other coronary artery bypass graft(s) with unspecified angina pectoris
I25.8	Other forms of chronic ischemic heart disease
I25.81	Atherosclerosis of other coronary vessels without angina pectoris
I25.810	Atherosclerosis of coronary artery bypass graft(s) without angina pectoris
I25.811	Atherosclerosis of native coronary artery of transplanted heart without angina pectoris
I25.812	Atherosclerosis of bypass graft of coronary artery of transplanted heart without angina pectoris
I25.82	Chronic total occlusion of coronary artery
I25.83	Coronary atherosclerosis due to lipid rich plaque
I25.84	Coronary atherosclerosis due to calcified coronary lesion
I25.85	Chronic coronary microvascular dysfunction
I25.89	Other forms of chronic ischemic heart disease
I25.9	Chronic ischemic heart disease, unspecified