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Drug overview for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl):
Generic name: DEXAMETHASONE SODIUM PHOSPHATE/LIDOCAINE HCL
Drug class: Glucocorticosteroids
Therapeutic class: Endocrine
Dexamethasone is a synthetic glucocorticoid.
Dexamethasone is used principally as an anti-inflammatory or immunosuppressant agent. Because it has only minimal mineralocorticoid properties, the drug is inadequate alone for the management of adrenocortical insufficiency. If dexamethasone is used in the treatment of this condition, concomitant therapy with a mineralocorticoid is also required.
Generic name: DEXAMETHASONE SODIUM PHOSPHATE/LIDOCAINE HCL
Drug class: Glucocorticosteroids
Therapeutic class: Endocrine
Dexamethasone is a synthetic glucocorticoid.
Dexamethasone is used principally as an anti-inflammatory or immunosuppressant agent. Because it has only minimal mineralocorticoid properties, the drug is inadequate alone for the management of adrenocortical insufficiency. If dexamethasone is used in the treatment of this condition, concomitant therapy with a mineralocorticoid is also required.
DRUG IMAGES
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The following indications for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl) have been approved by the FDA:
Indications:
None.
Professional Synonyms:
None.
Indications:
None.
Professional Synonyms:
None.
The following dosing information is available for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl):
The route of administration and dosage of dexamethasone and its derivatives depend on the condition being treated and the response of the patient. IM or IV therapy is generally reserved for patients who are not able to take the drugs orally or for use in an emergency situation. Dosage for infants and children should be based on the severity of the disease and the response of the patient rather than on strict adherence to dosage indicated by age, body weight, or body surface area.
After a satisfactory response is obtained, dosage should be decreased in small decrements to the lowest level that maintains an adequate clinical response, and the drug should be discontinued as soon as possible. Patients should be continually monitored for signs that indicate dosage adjustment is necessary, such as remissions or exacerbations of the disease and stress (surgery, infection, trauma). Following long-term therapy, dexamethasone should be withdrawn gradually. (See the Corticosteroids General Statement 68:04.)
After a satisfactory response is obtained, dosage should be decreased in small decrements to the lowest level that maintains an adequate clinical response, and the drug should be discontinued as soon as possible. Patients should be continually monitored for signs that indicate dosage adjustment is necessary, such as remissions or exacerbations of the disease and stress (surgery, infection, trauma). Following long-term therapy, dexamethasone should be withdrawn gradually. (See the Corticosteroids General Statement 68:04.)
No enhanced Administration information available for this drug.
No dosing information available.
No generic dosing information available.
The following drug interaction information is available for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl):
There are 7 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 |
|---|---|
| Efalizumab; Natalizumab/Immunosuppressives; Immunomodulators 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: Natalizumab,(1-3) efalizumab,(4) immunosuppressives, and immunomodulators all suppress the immune system. CLINICAL EFFECTS: Concurrent use of natalizumab(1-3) or efalizumab(4) with immunosuppressives or immunomodulators may result in an increased risk of infections, including progressive multifocal leukoencephalopathy (PML), an opportunistic infection caused by the JC virus (JCV). PREDISPOSING FACTORS: Previous JCV infection, longer duration of natalizumab treatment - especially if greater than 2 years, and prior or concomitant treatment with immunosuppressant medication are all independent risk factors which increase the risk for PML.(1,5) The FDA has estimated PML incidence stratified by risk factors: If anti-JCV antibody positive, no prior immunosuppressant use and natalizumab treatment less than 25 months, incidence <1/1,000. If anti-JCV antibody positive, history of prior immunosuppressant use and natalizumab treatment less than 25 months, incidence 2/1,000 If anti-JCV antibody positive, no prior immunosuppressant use and natalizumab treatment 25-48 months, incidence 4/1,000 If anti-JCV antibody positive, history of prior immunosuppressant use and natalizumab treatment 25-48 months, incidence 11/1,000. PATIENT MANAGEMENT: The US manufacturer of natalizumab states patients with Crohn's disease should not receive concurrent immunosuppressants, with the exception of limited overlap of corticosteroids, due to the increased risk for PML. For new natalizumab patients currently receiving chronic oral corticosteroids for Crohn's Disease, begin corticosteroid taper when therapeutic response to natalizumab has occurred. If corticosteroids cannot be discontinued within six months of starting natalizumab, discontinue natalizumab.(3) The US manufacturer of natalizumab states that natalizumab should not ordinarily be used in multiple sclerosis patients receiving immunosuppressants or immunomodulators due to the increased risk for PML. Immunosuppressives include, but are not limited to azathioprine, cyclophosphamide, cyclosporine, mercaptopurine, methotrexate, mitoxantrone, mycophenolate, and corticosteroids.(3,6) The UK manufacturer of natalizumab states that concurrent use with immunosuppressives or antineoplastic agents is contraindicated.(1) The Canadian manufacturer of natalizumab states that natalizumab should not be used with immunosuppressive or immunomodulatory agents.(2) The US manufacturer of certolizumab states that concurrent therapy with natalizumab is not recommended.(7) DISCUSSION: Progressive multifocal leukoencephalopathy has been reported in patients receiving concurrent natalizumab were recently or concomitantly taking immunomodulators or immunosuppressants.(1-5,8,9) In a retrospective cohort study of multiple sclerosis patients newly initiated on a disease-modifying therapy, use of high-efficacy agents (alemtuzumab, natalizumab, or ocrelizumab) resulted in the same risk of overall infections as moderate-efficacy agents, but there was an elevated risk of serious infections (adjusted hazard ratio [aHR] = 1.24, 95% confidence interval (CI) = 1.06-1.44) and UTIs (aHR = 1.21, 95% CI = 1.14-1.30).(10) |
TYSABRI |
| Dexamethasone/Praziquantel 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: Dexamethasone may induce the metabolism of praziquantel by CYP3A4.(1-3) CLINICAL EFFECTS: Concurrent or recent use of dexamethasone may decrease the levels and effectiveness of praziquantel. PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The concurrent use of praziquantel and strong inducers of CYP3A4, such as dexamethasone, is contraindicated.(1) In patients receiving dexamethasone who need immediate treatment for schistosomiasis, alternative agents for schistosomiasis should be used. If praziquantel is required, increase monitoring for praziquantel efficacy. If schistosomiasis treatment can be delayed, discontinue dexamethasone at least 2 to 4 weeks before administration of praziquantel. Dexamethasone therapy may be resumed 1 day after completion of praziquantel therapy.(1) DISCUSSION: In a study in eight subjects, concurrent dexamethasone decreased praziquantel levels by 50%.(3) |
BILTRICIDE, PRAZIQUANTEL |
| Rilpivirine/Selected Strong CYP3A4 Inducers 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: Apalutamide, barbiturates, carbamazepine, dexamethasone, enzalutamide, eslicarbazepine, fosphenytoin, ivosidenib, lumacaftor, mitotane, natisedine, phenobarbital, phenytoin, primidone, oxcarbazepine, rifampin, rifapentine, and St. John's wort may induce the metabolism of rilpivirine by CYP3A4.(1) CLINICAL EFFECTS: Concurrent or recent use of apalutamide, barbiturates, carbamazepine, dexamethasone, enzalutamide, eslicarbazepine, fosphenytoin, ivosidenib, lumacaftor, mitotane, natisedine, phenobarbital, phenytoin, primidone, oxcarbazepine, rifampin, rifapentine, or St. John's wort may result in decreased levels and effectiveness of rilpivirine, as well as the development of resistance.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The US manufacturer of rilpivirine states that concurrent use of CYP3A4 inducers such as apalutamide, barbiturates, carbamazepine, dexamethasone, enzalutamide, eslicarbazepine, fosphenytoin, ivosidenib, lumacaftor, mitotane, natisedine, phenobarbital, phenytoin, primidone, oxcarbazepine, rifampin, rifapentine, or St. John's wort is contraindicated.(1) It may take several weeks after the discontinuation of an enzyme inducer for enzyme activity to return to normal.(1) DISCUSSION: In a study in 16 subjects, rifampin (600 mg daily) decreased the Cmax, AUC, and Cmin of rilpivirine (150 mg daily) by 69%, 80%, and 89%, respectively. There were no significant effects on the Cmax or AUC of rifampin or 25-desacetylrifampin.(1) Strong CYP3A4 inducers linked include: apalutamide, barbiturates, carbamazepine, dexamethasone, encorafenib, enzalutamide, eslicarbazepine, fosphenytoin, ivosidenib, lumacaftor, mitotane, natisedine, phenobarbital, phenytoin, primidone, oxcarbazepine, rifampin, rifapentine, or St. John's wort. |
COMPLERA, EDURANT, JULUCA, ODEFSEY, RILPIVIRINE ER (CABENUVA) |
| Talimogene laherparepvec/Selected Immunosuppressants 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: Talimogene laherparepvec is a live, attenuated herpes simplex virus.(1) CLINICAL EFFECTS: Concurrent use of talimogene laherparepvec in patients receiving immunosuppressive therapy may cause a life-threatening disseminated herpetic infection.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Talimogene laherparepvec is contraindicated in immunosuppressed patients.(1) The magnitude of immunocompromise and associated risks due to immunosuppressant drugs should be determined by a physician. DISCUSSION: Concurrent use of talimogene laherparepvec in patients receiving immunosuppressive therapy may cause a life-threatening disseminated herpetic infection.(1) |
IMLYGIC |
| Desmopressin/Glucocorticoids 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: Glucocorticoids increase the risk of hyponatremia.(1-4) CLINICAL EFFECTS: Concurrent use of glucocorticoids may increase the risk of hyponatremia with desmopressin.(1-4) PREDISPOSING FACTORS: Predisposing factors for hyponatremia include: polydipsia, renal impairment (eGFR < 50 ml/min/1.73m2), illnesses that can cause fluid/electrolyte imbalances, age >=65, medications that cause water retention and/or increase the risk of hyponatremia (carbamazepine, chlorpromazine, lamotrigine, loop diuretics, NSAIDs, opioids, SSRIs, thiazide diuretics, and/or tricyclic antidepressants). PATIENT MANAGEMENT: The concurrent use of systemic or inhaled glucocorticoids with desmopressin is contraindicated.(1-4) Desmopressin may be initiated 3 days or 5 half-lives after glucocorticoid discontinuation, whichever is longer. If concurrent use is deemed medically necessary, make sure serum sodium levels are normal before beginning therapy and consider using the desmopressin nasal 0.83 mcg dose. Consider measuring serum sodium levels more frequently than the recommended intervals of: within 7 days of concurrent therapy initiation, one month after concurrent therapy initiation and periodically during treatment. Counsel patients to report symptoms of hyponatremia, which may include: headache, nausea/vomiting, feeling restless, fatigue, drowsiness, dizziness, muscle cramps, changes in mental state (confusion, decreased awareness/alertness), seizures, coma, and trouble breathing. Counsel patients to limit the amount of fluids they drink in the evening and night-time and to stop taking desmopressin if they develop a stomach/intestinal virus with nausea/vomiting or any nose problems (blockage, stuffy/runny nose, drainage).(1) DISCUSSION: In clinical trials of desmopressin for the treatment of nocturia, 4 of 5 patients who developed severe hyponatremia (serum sodium <= 125 mmol/L) were taking systemic or inhaled glucocorticoids. Three of these patients were also taking NSAIDs and one was receiving a thiazide diuretic.(2) Drugs associated with hyponatremia may increase the risk, including loop diuretics, carbamazepine, chlorpromazine, glucocorticoids, lamotrigine, NSAIDs, opioids, SSRIs, thiazide diuretics, and/or tricyclic antidepressants.(1,3-4) |
DDAVP, DESMOPRESSIN ACETATE, NOCDURNA |
| Cabotegravir-Rilpivirine/Strong CYP3A4 & UGT1A1 Inducers 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: Apalutamide, barbiturates, carbamazepine, dexamethasone, efavirenz, encorafenib, enzalutamide, eslicarbazepine, fosphenytoin, ivosidenib, lumacaftor, mitotane, natisedine, oxcarbazepine, phenobarbital, phenytoin, primidone, rifabutin, rifampin, rifapentine, ritonavir, or St. John's wort may induce the metabolism of cabotegravir-rilpivirine by CYP3A4 and uridine diphosphate (UDP)-glucuronosyl transferase 1A1 (UGT1A1).(1) CLINICAL EFFECTS: Concurrent or recent use of apalutamide, barbiturates, carbamazepine, dexamethasone, efavirenz, encorafenib, enzalutamide, eslicarbazepine, fosphenytoin, ivosidenib, lumacaftor, mitotane, natisedine, oxcarbazepine, phenobarbital, phenytoin, primidone, rifabutin, rifampin, rifapentine, ritonavir, or St. John's wort may result in decreased levels and effectiveness of cabotegravir-rilpivirine, as well as the development of resistance.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The US manufacturer of cabotegravir-rilpivirine states that concurrent use of CYP3A4 inducers and/or UGT1A1 inducers is contraindicated.(1) It may take several weeks after the discontinuation of an enzyme inducer for enzyme activity to return to normal.(1) DISCUSSION: In a study in 16 subjects, rifampin (600 mg daily) decreased the concentration maximum (Cmax), area-under-curve (AUC), and concentration minimum (Cmin) of rilpivirine (150 mg daily) by 69%, 80%, and 89%, respectively. There were no significant effects on the Cmax or AUC of rifampin or 25-desacetylrifampin.(1) In a study in 15 subjects, rifampin (600 mg daily) decreased the Cmax, AUC, and Cmin of cabotegravir by 6%, 59%, and 50%, respectively.(1) Strong CYP3A4 inducers linked include: apalutamide, barbiturates, carbamazepine, dexamethasone, encorafenib, enzalutamide, eslicarbazepine, fosphenytoin, ivosidenib, lumacaftor, mitotane, natisedine, oxcarbazepine, phenobarbital, phenytoin, primidone, rifabutin, rifampin, rifapentine, or St. John's wort.(1,2) UGT1A1 inducers linked include: carbamazepine, efavirenz, fosphenytoin, oxcarbazepine, phenobarbital, phenytoin, primidone, rifapentine, rifampin, and ritonavir.(1,2) |
CABENUVA |
| Nadofaragene Firadenovec/Selected Immunosuppressants 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: Nadofaragene firadenovec may contain low levels of replication-competent adenovirus.(1) CLINICAL EFFECTS: Concurrent use of nadofaragene firadenovec in patients receiving immunosuppressive therapy may cause disseminated adenovirus infection.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Individuals who are immunosuppressed or immune-deficient should not receive nadofaragene firadenovec.(1) DISCUSSION: Nadofaragene firadenovec is a non-replicating adenoviral vector-based gene therapy but may contain low levels of replication-competent adenovirus. Immunocompromised persons, including those receiving immunosuppressant therapy, may be at risk for disseminated adenovirus infection.(1) |
ADSTILADRIN |
There are 37 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 |
|---|---|
| Selected Anticholinesterase/Corticosteroids SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: The mechanism of this interaction is unknown. CLINICAL EFFECTS: Concurrent use of these agents may contribute to increased muscle weakness and decreased response to anticholinesterases shortly after onset of corticosteroid therapy in the treatment of myasthenia gravis. Deterioration in muscle strength, including severe muscular depression, has been documented in patients with myasthenia gravis while receiving corticosteroids and anticholinesterases. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: If possible, hold anticholinesterase agents at least 24 hours before initiating corticosteroid therapy. If concurrent use is necessary, close observation of the patient is indicated and life support systems should be available. DISCUSSION: Decreased effectiveness of anticholinesterases during the period of corticosteroid-induced increased weakness probably reflects a temporary increase in the severity of the disease process itself rather than a specific, direct interaction between the two drugs. Despite the initial adverse effect, glucocorticoid (or ACTH) therapy subsequently produces improvement, beyond pre-therapy muscle strength, in most myasthenia gravis patients. In an uncontrolled study involving nine patients receiving therapeutic doses of pyridostigmine, the concurrent administration of methylprednisolone resulted in a decrease in muscle strength in 71% of treatment courses. During 57% of treatment courses, severe muscle weakness occurred, necessitating mechanical ventilation. Improvement in muscle strength and response to pyridostigmine above baseline levels occurred after methylprednisolone was discontinued. Other clinical observations have indicated that the concomitant use of these agents can affect muscle strength, although each agent alone has been used successfully in treating myasthenia gravis. |
ANTICHOLIUM, BLOXIVERZ, DEMECARIUM BROMIDE, EDROPHONIUM CHLORIDE, MESTINON, NEOSTIGMINE METHYLSULFATE, NEOSTIGMINE-STERILE WATER, PREVDUO, PYRIDOSTIGMINE BROMIDE, PYRIDOSTIGMINE BROMIDE ER, REGONOL |
| Mifepristone/Corticosteroids SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Mifepristone is an antagonist of the progesterone and glucocorticoid (GR-II) receptors, but has little effect at the mineralocorticoid (GR-I) receptor. Mifepristone has a higher affinity for the glucocorticoid receptor than either dexamethasone or cortisol and will displace both endogenous and exogenous glucocorticoids from their binding sites. CLINICAL EFFECTS: Although serum cortisol levels rise, antagonism of the glucocorticoid receptor may lead to adrenal insufficiency. Efficacy of locally administered corticosteroids may be diminished. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The manufacturers of mifepristone states that mifepristone is contraindicated in patients receiving concurrent long-term corticosteroid therapy.(1-2) Due to its long mean half-life of 85 hours(2), even short term mifepristone use may have an extended duration of effect. DISCUSSION: The manufacturers of mifepristone states that mifepristone is contraindicated in patients receiving concurrent long-term corticosteroid therapy.(1-2) |
KORLYM, MIFEPREX, MIFEPRISTONE |
| Aldesleukin/Glucocorticoids SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Corticosteroids may suppress interleukin-2-induced tumor necrosis factor (TNF) synthesis.(1) CLINICAL EFFECTS: Concurrent use of corticosteroids may reduce the antitumor effectiveness of aldesleukin.(2) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The manufacturer of aldesleukin states that concurrent administration of corticosteroids and aldesleukin should be avoided.(2) DISCUSSION: Corticosteroids have been shown to reduce aldesleukin-related side effects such as fever, renal insufficiency, hyperbilirubinemia, confusion, and dyspnea.(1,2) However, dexamethasone has been shown to reduce aldesleukin-induced TNF synthesis.(1) |
PROLEUKIN |
| Selected Steroids/Antiretroviral CYP3A4 Inhibitors SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Antiretroviral CYP3A4 inhibitors may inhibit the metabolism of corticosteroids metabolized by CYP3A4. Dexamethasone may induce metabolism of agents that are substrates of CYP3A4.(1-13,50) CLINICAL EFFECTS: Concurrent use of antiretroviral CYP3A4 inhibitors may result in increased systemic exposure to and effects from corticosteroids metabolized by CYP3A4, including Cushing's syndrome and adrenal suppression. Concurrent dexamethasone may result in decreased levels and effectiveness of CYP3A4 substrates. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: If possible, avoid concurrent therapy of betamethasone, budesonide, ciclesonide, fluticasone, dexamethasone, methylprednisolone, or triamcinolone with antiretroviral CYP3A4 inhibitors. Alternative corticosteroids that are less affected by CYP3A4 inhibitors should be considered, like beclomethasone, prednisone, and prednisolone. If concurrent therapy is warranted, patients should be closely monitored for systemic effects. The corticosteroid may need to be discontinued. Patients receiving concurrent therapy with dexamethasone and substrates of CYP3A4 should also be monitored for decreased effectiveness of the CYP3A4 substrate. The manufacturers of nasal fluticasone(14-16) and fluticasone for inhalation(17) state that concurrent use of fluticasone and atazanavir, indinavir, nelfinavir, ritonavir or saquinavir is not recommended. The US manufacturers of atazanavir,(1) fosamprenavir,(5) indinavir(6) and nelfinavir(8) recommend caution with concurrent use of inhaled or nasal fluticasone. Consider alternatives to fluticasone if long-term use is required. DISCUSSION: In a study, boceprevir (800 mg TID for 7 days) increased the area-under-curve (AUC) of a single dose of prednisone (40 mg) by 22%. The maximum concentration (Cmax) and AUC of prednisolone increased by 16% and 37%, respectively.(2) A study of 14 healthy adults found that concurrent use of ketoconazole with ciclesonide increased the AUC of ciclesonide's active metabolite, des-ciclesonide, by approximately 3.6-fold at steady state, while levels of ciclesonide remained unchanged. However, the study concluded that no dosage adjustments were required because ciclesonide has a very low potential to cause side effects.(18) A study in 18 healthy subjects examined the effects of ritonavir (100 mg twice daily) on fluticasone nasal spray (200 mcg daily). In most subjects, fluticasone was undetectable (<10 pg/ml) when administered alone. In subjects in whom fluticasone was detectable when given alone, Cmax and area-under-curve AUC averaged 11.9 pg/ml and 8.43 pg x hr/ml, respectively. With concurrent ritonavir, fluticasone Cmax and AUC increased to 318 pg/ml and 3102.6 pg x hr/ml, respectively.(7,11,14) This reflects increases in Cmax and AUC by 25-fold and 350-fold, respectively.(3) The cortisol AUC decreased by 86%.(6,14-16) In a study in 10 healthy subjects, ritonavir (200 mg twice daily for 4 and 14 days) increased the AUC of a single dose of prednisolone by 1.41-fold and 1.30-fold, respectively, after 4 days and 14 days of ritonavir.(19) There have been several case reports of Cushing's syndrome in patients treated concurrently with ritonavir and inhaled budesonide,(19-20) dexamethasone,(22) injectable triamcinolone,(23-26) nasal fluticasone.(28-46) Hepatitis has also been reported with concurrent budesonide and ritonavir.(47) In a study in 9 healthy subjects, mibefradil (50 mg once daily for 3 days) increased the AUC, Cmax, and elimination half-life of methylprednisolone by 3.8-fold, 1.8-fold, and 2.7-fold, respectively.(48) In a study in 8 healthy subjects, following nefazodone administration the following changes were seen with methylprednisolone: mean (+/-SD) area under the concentration-time curve was significantly higher (1393 +/- 343 vs. 2966 +/- 928 ug*h/L; P < 0.005), apparent clearance was lower (28.7 +/- 7.2 vs. 14.6 +/- 7.8 L/h; P < 0.02) and the terminal elimination half-life was longer (2.28 +/- 0.49 vs. 3.32 +/- 0.95 hours; P < 0.02).(49) Selected steroids linked to this monograph include: betamethasone, budesonide, ciclesonide, dexamethasone, fluticasone, methylprednisolone, and triamcinolone.(50) Selected CYP3A4 inhibitors and substrates linked to this monograph include: atazanavir, cobicistat, darunavir, fosamprenavir, indinavir, lenacapavir, lopinavir, nelfinavir, saquinavir, and tipranavir.(50) |
APTIVUS, ATAZANAVIR SULFATE, DARUNAVIR, EVOTAZ, FOSAMPRENAVIR CALCIUM, GENVOYA, KALETRA, LOPINAVIR-RITONAVIR, PREZCOBIX, PREZISTA, REYATAZ, STRIBILD, SUNLENCA, SYMTUZA, TYBOST, VIRACEPT |
| Systemic Corticosteroids; Corticotropin (ACTH)/Live Vaccines SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Corticosteroids and corticotropin suppress the immune system. In severely immunocompromised patients, virus replication after administration of live, attenuated-virus vaccines can be enhanced and/or the immune response to the vaccine may be decreased.(1) CLINICAL EFFECTS: The expected serum antibody response may not be obtained and/or the vaccine may result in illness.(1) PREDISPOSING FACTORS: Patients receiving immunosuppressive doses of corticosteroids or corticotropin for equal to or greater than 14 consecutive days.(1) PATIENT MANAGEMENT: The Centers for Disease Control's (CDC) Advisory Committee on Immunization Practices (ACIP) states that live-virus and live, attenuated vaccines should not be administered to patients who are severely immunosuppressed, including those who are receiving or have received high-dose, systemic steroids for greater than or equal to 14 consecutive days. Live vaccines should be deferred for at least 1 month after discontinuation of high-dose systemic steroids administered for 14 consecutive days. When initiating immunosuppressives doses of corticosteroids, wait 4 weeks after a live vaccines is administered. However, if patients require therapy for chronic inflammatory conditions, do not delay therapy due to past vaccines. Patients who are vaccinated within the 14 days prior to initiating immunosuppressive therapy should be considered unvaccinated and should be revaccinated at least 3 months after immunosuppressive therapy is discontinued.(1) The US manufacturer of corticotropin(2) and triamcinolone(3) and the Australian manufacturer of dexamethasone(4) state that administration of live or live-attenuated vaccines is contraindicated in patients receiving immunosuppressive doses of corticosteroids or corticotropin. The manufacturer of deflazacort states that live or live-attenuated vaccines should be administered at least 4 to 6 weeks prior to initiation of therapy with deflazacort.(5) DISCUSSION: Many clinicians consider a dose equivalent to either 2 mg/kg of body weight or a total of 20 mg/day of prednisone as sufficiently immunosuppressive to raise safety concerns about live-virus vaccines.(1) Immunization procedures may be undertaken in patients receiving corticosteroids when the therapy is short term (less than 2 weeks); low to moderate dose; long-term, alternate-day treatment with short-acting preparations; maintenance physiologic doses (replacement therapy); or administered topically (skin or eyes), by aerosol, or by intra-articular, bursal, or tendon injection.(1) Killed or inactivated vaccines do not pose a danger to immunocompromised patients.(1) |
ACAM2000 (NATIONAL STOCKPILE), ADENOVIRUS TYPE 4, ADENOVIRUS TYPE 4 AND TYPE 7, ADENOVIRUS TYPE 7, BCG (TICE STRAIN), BCG VACCINE (TICE STRAIN), DENGVAXIA, ERVEBO (NATIONAL STOCKPILE), FLUMIST TRIVALENT 2024-2025, IXCHIQ, M-M-R II VACCINE, PRIORIX, PROQUAD, ROTARIX, ROTATEQ, STAMARIL, VARIVAX VACCINE, VAXCHORA ACTIVE COMPONENT, VAXCHORA VACCINE, VIVOTIF, YF-VAX |
| Amphotericin B/Corticosteroids; Corticotropin (ACTH) SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Corticosteroids and corticotropin may potentiate potassium excretion and overload salt and water retention.(1) CLINICAL EFFECTS: Concurrent use of amphotericin b with corticosteroids or corticotropin may potentiate amphotericin b-induced hypokalemia, thereby predisposing patients to cardiac dysfunction.(1-2) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The US manufacturer of amphotericin b states that concurrent use of corticosteroids or corticotropin should be avoided unless absolutely necessary to avoid side effects. If concurrent use is necessary, serum electrolytes and cardiac function must be monitored closely.(1) DISCUSSION: There are four case reports of cardiac enlargement, hypokalemia, and hypernatremia from concurrent use of amphotericin b and corticosteroids.(2) |
ABELCET, AMBISOME, AMPHOTERICIN B, AMPHOTERICIN B LIPOSOME |
| Temsirolimus/Dexamethasone SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Dexamethasone may induce the metabolism of temsirolimus by CYP3A4.(1) CLINICAL EFFECTS: Concurrent dexamethasone may result in decreased levels and effectiveness of temsirolimus.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The US manufacturer of temsirolimus states that concurrent use of strong inducers of CYP3A4, such as dexamethasone, should be avoided. If concurrent therapy is warranted, consider increasing the dosage of temsirolimus from 25 mg/week to 50 mg/week. If the inducer is discontinued, the dosage of temsirolimus should be returned to the previous dose.(1) DISCUSSION: Concurrent rifampin, a potent inducer of CYP3A4 and CYP3A5, had no significant effects on the area-under-curve (AUC) or maximum concentration (Cmax) of temsirolimus; however, sirolimus AUC and Cmax decreased by 56% and 65%, respectively.(1) A dosage adjustment to 50 mg/week of temsirolimus in the presence of strong CYP3A4 inducers is predicted to adjust levels to those seen without inducers; however, there are no clinical data in patients using this dose.(1) |
TEMSIROLIMUS, TORISEL |
| Romidepsin/Strong CYP3A4 Inducers; Rifabutin SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Strong inducers of CYP3A4 and rifabutin may increase the metabolism of romidepsin.(1,2) CLINICAL EFFECTS: Concurrent use of a strong CYP3A4 inducer or rifabutin may result in decreased levels and effectiveness of romidepsin.(1,2) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The manufacturer of romidepsin recommends avoiding the use of strong inducers of CYP3A4 in patients receiving romidepsin.(1,2) The Canadian manufacturer includes rifabutin on its list of CYP3A4 inducers that should be avoided.(2) DISCUSSION: In a study in advanced cancer patients, rifampin, a strong inducer of CYP3A4 and an inhibitor and inducer of other CYP enzymes and transporters, unexpectedly increased the maximum concentration (Cmax) and area-under-curve (AUC) of romidepsin (14 mg/m2) by 60% and 80%, respectively. Romidepsin clearance and volume of distribution decreased by 44% and 52%, respectively. This is likely due to inhibition of an undetermined hepatic uptake process responsible for the disposition of romidepsin.(1) Strong inducers of CYP3A4 include: apalutamide, barbiturates, carbamazepine, dexamethasone, enzalutamide, fosphenytoin, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifabutin, rifapentine and St. John's wort.(1-3) |
ISTODAX, ROMIDEPSIN |
| Ixabepilone/Dexamethasone SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Dexamethasone may induce the metabolism of ixabepilone by CYP3A4.(1) CLINICAL EFFECTS: Concurrent or recent use of dexamethasone may result in decreased levels and effectiveness of ixabepilone.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The US manufacturer of ixabepilone states that concurrent use of strong inducers of CYP3A4, such as dexamethasone, should be avoided. Pretreatment with single doses of dexamethasone may be required in patients who have experienced a hypersensitivity reaction to ixabepilone.(1) If concurrent long-term therapy is required, the dose of ixabepilone may be gradually increased from 40 mg/m2 to 60 mg/m2, depending on tolerance. If the dose is increased, ixabepilone should be given as a 4 hour infusion. Monitor patients closely for toxicity. If the inducer is discontinued, the dose of ixabepilone should be returned to the dose used prior to concurrent therapy.(1) DISCUSSION: Concurrent use of rifampin, another strong inducer of CYP3A4, increased ixabepilone area-under-curve (AUC) by 43%, compared to treatment with ixabepilone alone.(1) Adjustment of the ixabepilone dose in the presence of a strong CYP3A4 inducer to 60 mg/m2 given over 4 hours is predicted to adjust the ixabepilone AUC to the range observed without inducers; however, there is no clinical data with this dose.(1) |
IXEMPRA |
| Toremifene/Strong CYP3A4 Inducers SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Strong inducers of CYP3A4 may induce the metabolism of toremifene.(1) Toremifene may inhibit the metabolism of phenytoin.(1) CLINICAL EFFECTS: Concurrent or recent use of apalutamide, barbiturates, carbamazepine, dexamethasone, enzalutamide, fosphenytoin, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifabutin, rifampin, rifapentine, and St. John's wort may result in decreased levels and effectiveness of toremifene.(1) Concurrent use of toremifene may decrease phenytoin levels.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: Avoid the use of strong inducers of CYP3A4 in patients receiving toremifene. If concurrent toremifene and phenytoin are required, monitor phenytoin levels. The dosage of phenytoin may need to be adjusted.(1) DISCUSSION: In clinical trials, ten patients on anticonvulsants which included carbamazepine, phenobarbital, and phenytoin experienced a 2-fold increase in clearance and a decrease in the elimination half-life of toremifene.(1,2) The area-under-curve (AUC) and half-life of N-demethyltoremifene, an active metabolite of toremifene, decreased by 61% and 78%, respectively.(2) In a study in healthy males, rifampin (600 mg daily for 5 days) decreased maximum concentration (Cmax) and AUC of a single dose of toremifene (120 mg) by 55% and 87%, respectively. The Cmax of N-demethyltoremifene increased 48% and the AUC of N-demethyltoremifene decreased by 80%.(3) Strong inducers of CYP3A4 include apalutamide, barbiturates, carbamazepine, dexamethasone, enzalutamide, fosphenytoin, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifabutin, rifampin, rifapentine, and St. John's wort.(4,5) |
FARESTON, TOREMIFENE CITRATE |
| Radioactive Iodide/Agents that Affect Iodide SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Many compounds can affect iodide protein binding and alter iodide pharmacokinetics and pharmacodynamics.(1) CLINICAL EFFECTS: Compounds that affect iodide pharmacokinetics and pharmacodynamics may impact the effectiveness of radioactive iodide.(1) PREDISPOSING FACTORS: Compounds that affect iodide pharmacokinetics and pharmacodynamics are expected to have the most impact during therapy using radioactive iodide. Diagnostic procedures would be expected to be impacted less. PATIENT MANAGEMENT: Discuss the use of agents that affect iodide pharmacokinetics and pharmacodynamics with the patient's oncologist.(1) Because indocyanine green contains sodium iodide, the iodine-binding capacity of thyroid tissue may be reduced for at least one week following administration. Do not perform radioactive iodine uptake studies for at least one week following administration of indocyanine green.(2) The manufacturer of iopamidol states administration may interfere with thyroid uptake of radioactive iodine and decrease therapeutic and diagnostic efficacy. Avoid thyroid therapy or testing for up to 6 weeks post administration of iopamidol.(3) DISCUSSION: Many agents interact with radioactive iodine. The average duration of effect is: anticoagulants - 1 week antihistamines - 1 week anti-thyroid drugs, e.g: carbimazole, methimazole, propylthiouracil - 3-5 days corticosteroids - 1 week iodide-containing medications, e.g: amiodarone - 1-6 months expectorants - 2 weeks Lugol solution - 3 weeks saturated solution of potassium iodine - 3 weeks vitamins - 10-14 days iodide-containing X-ray contrast agents - up to 1 year lithium - 4 weeks phenylbutazone - 1-2 weeks sulfonamides - 1 week thyroid hormones (natural or synthetic), e.g.: thyroxine - 4 weeks tri-iodothyronine - 2 weeks tolbutamide - 1 week topical iodide - 1-9 months (1) |
ADREVIEW, JEANATOPE, MEGATOPE, SODIUM IODIDE I-123 |
| Tofacitinib/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Concurrent use of tofacitinib and azathioprine, other biologic disease-modifying antirheumatic drugs (DMARDs), or potent immunosuppressants may result in additive or synergistic effects on the immune system.(1) CLINICAL EFFECTS: Concurrent use of tofacitinib and azathioprine, other biologic DMARDs, or potent immunosuppressants use may increase the risk of serious infections.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Tofacitinib should not be used concurrently with azathioprine, other biologic DMARDs, or cyclosporine.(1) Patient should be monitored for decreases in lymphocytes and neutrophils. Therapy should be adjusted based on the indication. - For all indications: If absolute neutrophil count (ANC) or lymphocyte count is less than 500 cells/mm3, discontinue tofacitinib. - For rheumatoid arthritis or psoriatic arthritis and absolute neutrophil count (ANC) 500 to 1000 cells/mm3: interrupt dosing. When ANC is greater than 1000 cells/mm3, resume Xeljanz 5 mg twice daily or Xeljanz XR 11 mg once daily. - For ulcerative colitis and ANC 500 to 1000 cells/mm3: -If taking Xeljanz 10 mg twice daily, decrease to 5 mg twice daily. When ANC is greater than 1000 cells/mm3, increase to 10 mg twice daily based on clinical response. -If taking Xeljanz 5 mg twice daily, interrupt dosing. When ANC is greater than 1000 cells/mm3, resume 5 mg twice daily. -If taking Xeljanz XR 22 mg once daily, decrease to 11 mg once daily. When ANC is greater than 1000 cells/mm3, increase to 22 mg once daily based on clinical response. -If taking Xeljanz XR 11 mg once daily, interrupt dosing. When ANC is greater than 1000 cells/mm3, resume 11 mg once daily. - For polyarticular course juvenile idiopathic arthritis (pcJIA) and ANC 500 to 1000 cells/mm3: interrupt dosing until ANC is greater than 1000 cells/mm3.(1) DISCUSSION: Concurrent use of tofacitinib and azathioprine, other biologic DMARDs, or potent immunosuppressants may increase the risk of infection.(1) |
TOFACITINIB CITRATE, XELJANZ, XELJANZ XR |
| Selected Multiple Sclerosis Agents/Immunosuppressants; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Ocrelizumab or ofatumumab in combination with immunosuppressives and immune-modulators all suppress the immune system.(1,2) CLINICAL EFFECTS: Concurrent use of ocrelizumab or ofatumumab with immunosuppressive or immune-modulating agents may result in an increased risk of serious infections, such as disseminated herpetic infection or progressive multifocal leukoencephalopathy (PML), an opportunistic infection caused by the JC virus (JCV).(1,2) PREDISPOSING FACTORS: Incomplete washout of previously prescribed immunosuppressive or immune-modulating medications. PATIENT MANAGEMENT: The ocrelizumab US prescribing information states: - Ocrelizumab and other immune-modulating or immunosuppressive therapies, (including immunosuppressant doses of corticosteroids) are expected to increase the risk of immunosuppression, and the risk of additive immune system effects must be considered if these therapies are coadministered with ocrelizumab. When switching from drugs with prolonged immune effects, such as daclizumab, fingolimod, natalizumab, teriflunomide, or mitoxantrone, the duration and mode of action of these drugs must be considered to avoid unintended additive immunosuppressive effects when initiating ocrelizumab.(1) The ofatumumab US prescribing information states: - Ofatumumab and other immunosuppressive therapies (including systemic corticosteroids) may have the potential for increased immunosuppressive effects and increase the risk of infection. When switching between therapies, the duration and mechanism of action of each therapy should be considered due to the potential for additive immunosuppressive effects. Ofatumumab for MS therapy has not been studied in combination with other MS agents that suppress the immune system.(2) DISCUSSION: Fatal disseminated herpes zoster and herpes simplex infections and cases of progressive multifocal leukoencephalopathy (PML) have been reported in patients who previously received immunomodulators or immunosuppressants.(1,2) In a retrospective cohort study of multiple sclerosis patients newly initiated on a disease-modifying therapy, use of high-efficacy agents (alemtuzumab, natalizumab, or ocrelizumab) resulted in the same risk of overall infections as moderate-efficacy agents, but there was an elevated risk of serious infections (adjusted hazard ratio [aHR] = 1.24, 95% confidence interval (CI) = 1.06-1.44) and UTIs (aHR = 1.21, 95% CI = 1.14-1.30).(3) |
KESIMPTA PEN, OCREVUS, OCREVUS ZUNOVO |
| T Cell Immunotherapies/Corticosteroids SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Corticosteroids suppress the immune system. Concurrent use or premedication with a prophylactic corticosteroid may interfere with the activity of CAR-T cell immunotherapies.(1-6) CLINICAL EFFECTS: Corticosteroids may decrease the efficacy of CAR-T cell immunotherapies.(1-6) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The manufacturers recommend avoiding concurrent or prophylactic use of corticosteroids as a premedication prior to infusion of CAR-T cell immunotherapy. Corticosteroids may be used and are recommended in the case of a life-threatening emergency, including the management of cytokine release syndrome or neurological toxicities.(1-6) DISCUSSION: Corticosteroids may decrease the efficacy of CAR-T cell immunotherapy.(1-6) The manufacturers recommend avoiding concurrent or prophylactic use of corticosteroids as a premedication prior to infusion of CAR-T cell immunotherapy.(1-6) Corticosteroids may be used and are recommended in the case of a life-threatening emergency, including the management of cytokine release syndrome or neurological toxicities.(1-6) |
ABECMA, AMTAGVI, AUCATZYL, BREYANZI, BREYANZI CD4 COMPONENT, BREYANZI CD8 COMPONENT, CARVYKTI, KYMRIAH, TECARTUS, TECELRA, YESCARTA |
| Cosyntropin/Agents Affecting Plasma Cortisol Levels SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Agents affecting plasma cortisol levels may impact the accuracy of the cosyntropin diagnostic test.(1) CLINICAL EFFECTS: Concurrent use of agents affecting plasma cortisol levels may impact the accuracy of the cosyntropin diagnostic test.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The US manufacturer of cosyntropin states accuracy of diagnosis using the cosyntropin diagnostic test may be complicated by concomitant medications affecting plasma cortisol levels.(1) Agents affecting plasma cortisol levels and recommendation to stop prior to cosyntropin diagnostic test include: - Glucocorticoids: May elevate plasma cortisol levels. Stop these drugs on the day of testing. Long-acting glucocorticoids may need to be stopped for a longer period before testing. - Spironolactone: May elevate plasma cortisol levels. Stop spironolactone on the day of testing. - Estrogen: May elevate plasma total cortisol levels. Discontinue estrogen containing drugs 4 to 6 weeks prior to testing to allow cortisol binding globulin levels to return to levels within the reference range. Alternatively, concomitant measurement of cortisol binding globulin at the time of testing can be done; if cortisol binding globulin levels are elevated, plasma total cortisol levels are considered inaccurate.(1) DISCUSSION: Concurrent use of agents affecting plasma cortisol levels may impact the accuracy of the cosyntropin diagnostic test.(1) |
CORTROSYN, COSYNTROPIN |
| Tivozanib/Strong CYP3A4 Inducers SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Strong CYP3A4 inducers may induce the metabolism of tivozanib by CYP3A4.(1,2) CLINICAL EFFECTS: The concurrent use of strong CYP3A4 inducers and tivozanib may result in decreased levels of tivozanib, which may lead to treatment failure.(1,2) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The US manufacturer of tivozanib recommends avoiding concomitant use of strong CYP3A4 inducers.(1) The UK manufacturer of tivozanib states that concurrent use with strong CYP3A4 inducers should be undertaken with caution.(2) DISCUSSION: Concomitant use of multiple doses of rifampin (a strong CYP3A inducer) did not change tivozanib maximum concentration (Cmax) but decreased tivozanib area-under-curve (AUC) by 52%.(1) In a study in health volunteers, concurrent administration of single dose tivozanib (1340 mcg) with rifampin 600 mg once daily (a strong CYP3A4 inducer) decreased the half-life of tivozanib from 121 to 54 hours and decreased single dose AUC by 48%. The clinical effects of strong CYP3A4 inducers on repeated daily dosing has not been studied.(2) Strong CYP3A4 inducers linked to this monograph include: apalutamide, barbiturates, carbamazepine, dexamethasone, encorafenib, enzalutamide, fosphenytoin, ivosidenib, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifampin, and rifapentine.(3,4) |
FOTIVDA |
| Upadacitinib/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Upadacitinib, immunosuppressives, and immunomodulators all suppress the immune system. CLINICAL EFFECTS: Concurrent use of upadacitinib with immunosuppressives or immunomodulators may result in an increased risk of serious infections. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The US manufacturer of upadacitinib states that concurrent use of upadacitinib with immunosuppressives or immunomodulators is not recommended. DISCUSSION: Serious infections have been reported in patients receiving upadacitinib. Reported infections included pneumonia, cellulitis, tuberculosis, multidermatomal herpes zoster, oral/esophageal candidiasis, cryptococcosis. Reports of viral reactivation, including herpes virus reactivation and hepatitis B reactivation, were reported in clinical studies with upadacitinib.(1) |
RINVOQ, RINVOQ LQ |
| Lumateperone/CYP3A4 Inducers SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Lumateperone is a substrate of CYP3A4. Inducers of CYP3A4 may induce the metabolism of lumateperone.(1) CLINICAL EFFECTS: The concurrent administration of a CYP3A4 inducer may decrease the exposure to lumateperone.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The manufacturer of lumateperone states that concurrent use with CYP3A4 inducers should be avoided.(1) DISCUSSION: Coadministration of lumateperone with rifampin, a strong CYP3A4 inducer, resulted in a 98% reduction in area-under-curve (AUC) and a 90% reduction in concentration maximum (Cmax).(1) Strong inducers of CYP3A4 include: apalutamide, barbiturates, carbamazepine, encorafenib, enzalutamide, fosphenytoin, ivosidenib, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifampin, rifapentine, and St. John's wort.(2,3) Moderate inducers of CYP3A4 include: belzutifan, bosentan, cenobamate, dabrafenib, efavirenz, elagolix, etravirine, lesinurad, lorlatinib, mavacamten, mitapivat, modafinil, nafcillin, pacritinib, repotrectinib, rifabutin, telotristat, thioridazine, and tovorafenib.(2,3) Weak inducers of CYP3A4 include: amprenavir, armodafinil, bexarotene, brivaracetam, clobazam, danshen, darolutamide, dexamethasone, dicloxacillin, echinacea, eslicarbazepine, garlic, genistein, gingko, ginseng, glycyrrhizin, nevirapine, omaveloxolone, oxcarbazepine, pioglitazone, quercetin, rufinamide, sotorasib, sulfinpyrazone, tecovirimat, terbinafine, ticlopidine, troglitazone, vemurafenib, and vinblastine.(2,3) |
CAPLYTA |
| Inebilizumab/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Inebilizumab, immunosuppressives, and immunomodulators all suppress the immune system.(1) CLINICAL EFFECTS: Concurrent use of inebilizumab with immunosuppressive or immunomodulating agents may result in myelosuppression including neutropenia resulting in an increased risk for serious infections.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The US manufacturer of inebilizumab states that the concurrent use of inebilizumab with immunosuppressive agents, including systemic corticosteroids, may increase the risk of infection. If concurrent therapy is warranted, consider the risk of additive immune suppression and monitor based on prescribing information for both agents.(1) DISCUSSION: Inebilizumab has not been studied in combination with other immunosuppressants. If concurrent therapy is warranted, consider the potential for increased immunosuppressive risks from both agents. The most common infections reported by inebilizumab treated patients in the randomized and open-label clinical trial periods included urinary tract infections (20%), nasopharyngitis (13%), upper respiratory tract infections (8%), and influenza (7%). Although there been no cases of Hepatitis B virus reactivation or progressive multifocal leukoencephalopathy reported in patients taking inebilizumab, these infections have been observed in patients taking other B-cell-depleting antibodies.(1) |
UPLIZNA |
| Baricitinib/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Concurrent use of baricitinib with other biologic disease-modifying antirheumatic drugs (DMARDs) or potent immunosuppressants such as azathioprine or cyclosporine may result in additive or synergistic effects on the immune system. CLINICAL EFFECTS: Concurrent use of baricitinib with other biologic DMARDs or potent immunosuppressants such as azathioprine or cyclosporine may increase the risk of serious infections.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The US manufacturer of baricitinib states that concurrent use of baricitinib with biologic DMARDs or potent immunosuppressants is not recommended.(1) DISCUSSION: Most patients who developed serious infections while being treated with baricitinib were on concomitant immunosuppressants like methotrexate and corticosteroids. The combination of baricitinib with other biologic DMARDs has not been studied.(1) |
OLUMIANT |
| Long-acting Bupivacaine/Local Anesthetics SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Concurrent use of other local anesthetics or use of other local anesthetics within 96 hours following long-acting bupivacaine may result in additive neurologic and cardiovascular effects. Use of articaine, benzocaine, bupivacaine, lidocaine, mepivacaine, prilocaine, procaine, ropivacaine, and tetracaine may also increase the risk of methemoglobinemia.(1,2) Non-liposomal bupivacaine may impact the pharmacokinetic and/or physicochemical properties of the liposomal formulation when administered in the same syringe or used simultaneously unless the ratio of mg of non-liposomal bupivacaine to mg of bupivacaine liposomal does not exceed 1:2.(1) Local anesthetics other than bupivacaine may trigger the immediate release of bupivacaine from the liposomal formulation when administered together locally.(1) CLINICAL EFFECTS: Concurrent or use of local anesthetics with 96 hours of use of long-acting bupivacaine may result in neurologic and cardiovascular toxicity. Use of articaine, benzocaine, bupivacaine, lidocaine, mepivacaine, prilocaine, procaine, ropivacaine, and tetracaine may also result in methemoglobinemia.(1,2) Non-liposomal bupivacaine may impact the pharmacokinetic and/or physicochemical properties of the liposomal formulation when administered in the same syringe or used simultaneously unless the ratio of mg of non-liposomal bupivacaine to mg of bupivacaine liposomal does not exceed 1:2.(1) Local anesthetics other than bupivacaine may trigger the immediate release of bupivacaine from the liposomal formulation when administered together locally.(1) PREDISPOSING FACTORS: Use of additional agents that are associated with methemoglobinemia may further increase the risk of methemoglobinemia.(1) Patients who are at increased risk of developing methemoglobinemia include those with glucose-6-phosphate dehydrogenase deficiency, congenital or idiopathic methemoglobinemia, cardiac or pulmonary compromise, infants under 6 months of age, and concurrent exposure to oxidizing agents or their metabolites are more susceptible to developing clinical manifestations of the condition. If local anesthetics must be used in these patients, close monitoring for symptoms and signs of methemoglobinemia is recommended.(1) PATIENT MANAGEMENT: Avoid the use of other local anesthetics within 96 hours following the administration of long-acting bupivacaine. In patients for whom use is required, monitor for neurologic and cardiovascular effects. Also monitor for methemoglobinemia with use of articaine, benzocaine, bupivacaine, lidocaine, mepivacaine, prilocaine, procaine, ropivacaine, and tetracaine.(1,2) Non-liposomal bupivacaine may be administered in the same syringe as bupivacaine liposomal or injected immediately before bupivacaine liposomal as long as the ratio of mg of non-liposomal bupivacaine to mg of bupivacaine liposomal does not exceed 1:2.(1) Lidocaine may be administered 20 minutes or more prior to bupivacaine. It is unknown if other local anesthetics may be used without compromising the release characteristic of bupivacaine liposomal.(1) DISCUSSION: Concurrent use of other local anesthetics or use of other local anesthetics within 96 hours following long-acting bupivacaine may result in additive neurologic and cardiovascular effects. Use of articaine, benzocaine, bupivacaine, lidocaine, mepivacaine, prilocaine, procaine, ropivacaine, and tetracaine may also increase the risk of methemoglobinemia.(1,2) Non-liposome bupivacaine may impact the pharmacokinetic and/or physicochemical properties of the liposomal formulation when administered in the same syringe or used simultaneously unless the ratio of mg of non-liposomal bupivacaine to mg of bupivacaine liposomal does not exceed 1:2.(1) Local anesthetics other than bupivacaine may trigger the immediate release of bupivacaine from the liposomal formulation when administered together locally. Lidocaine may be administered 20 minutes or more prior to bupivacaine. It is unknown if other local anesthetics may be used without compromising the release characteristic of bupivacaine liposomal.(1) |
BUPIVACAINE LIPOSOME, EXPAREL, XARACOLL, ZYNRELEF |
| Ponesimod/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Ponesimod in combination with immunosuppressives and immune-modulators all suppress the immune system.(1) CLINICAL EFFECTS: Concurrent use of ponesimod with immunosuppressive or immune-modulating agents may result in an increased risk of serious infections, such as disseminated herpetic infection, cryptococcal infection, or progressive multifocal leukoencephalopathy (PML), an opportunistic infection caused by the JC virus (JCV).(1) PREDISPOSING FACTORS: Incomplete washout of previously prescribed immunosuppressive or immune-modulating medications. PATIENT MANAGEMENT: The ponesimod US prescribing information states ponesimod has not been studied in combination with anti-neoplastic, immune-modulating, or immunosuppressive therapies. Caution should be used during concomitant administration because of the risk of additive immune effects during therapy and in the weeks following administration. When switching from drugs with prolonged immune effects, the half-life and mode of action of these drugs must be considered in order to avoid unintended additive immunosuppressive effects. Initiating treatment with ponesimod after alemtuzumab is not recommended. However, ponesimod can generally be started immediately after discontinuation of beta interferon or glatiramer acetate.(1) DISCUSSION: Fatal disseminated herpes zoster and herpes simplex infections, cryptococcal meningitis, disseminated cryptococcal infections, and cases of progressive multifocal leukoencephalopathy (PML) have been reported in patients who previously received immunomodulators or immunosuppressants.(1) |
PONVORY |
| Fingolimod/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Fingolimod in combination with immunosuppressives and immune-modulators all suppress the immune system.(1-3) CLINICAL EFFECTS: Concurrent use of fingolimod with immunosuppressive or immune-modulating agents may result in an increased risk of serious infections, such as disseminated herpetic infection or progressive multifocal leukoencephalopathy (PML), an opportunistic infection caused by the JC virus (JCV).(1-3) PREDISPOSING FACTORS: Incomplete washout of previously prescribed immunosuppressive or immune-modulating medications. PATIENT MANAGEMENT: Recommendations for fingolimod regarding this interaction differ between regulatory approving agencies. The fingolimod US prescribing information states: - Antineoplastic, immune-modulating, or immunosuppressive therapies, (including corticosteroids) are expected to increase the risk of immunosuppression, and the risk of additive immune system effects must be considered if these therapies are coadministered with fingolimod. When switching from drugs with prolonged immune effects, such as natalizumab, teriflunomide or mitoxantrone, the duration and mode of action of these drugs must be considered to avoid unintended additive immunosuppressive effects when initiating fingolimod.(1) The fingolimod Canadian prescribing information states: - Concurrent use with immunosuppressive or immunomodulatory agents is contraindicated due to the risk of additive immune system effects. However, co-administration of a short course of corticosteroids (up to 5 days) did not increase the overall rate of infection in patients participating Phase III clinical trials.(2) The fingolimod UK specific product characteristics states: - Fingolimod is contraindicated in patients currently receiving immunosuppressive therapies or those immunocompromised by prior therapies. When switching patients from another disease modifying therapy to Gilenya, the half-life and mode of action of the other therapy must be considered in order to avoid an additive immune effect whilst at the same time minimizing the risk of disease activation.(3) DISCUSSION: Fatal disseminated herpes zoster and herpes simplex infections and cases of progressive multifocal leukoencephalopathy (PML) have been reported in patients who previously received immunomodulators or immunosuppressants.(1-3) |
FINGOLIMOD, GILENYA, TASCENSO ODT |
| Ozanimod/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Ozanimod in combination with immunosuppressives and immune-modulators all suppress the immune system.(1) CLINICAL EFFECTS: Concurrent use of ozanimod with immunosuppressive or immune-modulating agents may result in an increased risk of serious infections, such as disseminated herpetic infection or progressive multifocal leukoencephalopathy (PML), an opportunistic infection caused by the JC virus (JCV).(1) PREDISPOSING FACTORS: Incomplete washout of previously prescribed immunosuppressive or immune-modulating medications. PATIENT MANAGEMENT: The ozanimod US prescribing information state this information regarding this interaction: -Ozanimod has not been studied in combination with anti-neoplastic, immune-modulating, or immunosuppressive therapies. Caution should be used during concomitant administration because of the risk of additive immune effects during therapy and in the week following administration. When switching from drugs with prolonged immune effects, the half-life and mode of action of these drugs must be considered in order to avoid unintended additive immunosuppressive effects. Initiating treatment with ozanimod after alemtuzumab is not recommended. However, ozanimod can generally be started immediately after discontinuation of beta interferon or glatiramer acetate.(1) DISCUSSION: Fatal disseminated herpes zoster and herpes simplex infections and cases of progressive multifocal leukoencephalopathy (PML) have been reported in patients who previously received immunomodulators or immunosuppressants.(1) |
ZEPOSIA |
| Siponimod/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Siponimod in combination with immunosuppressives and immune-modulators all suppress the immune system.(1) CLINICAL EFFECTS: Concurrent use of siponimod with immunosuppressive or immune-modulating agents may result in an increased risk of serious infections, such as disseminated herpetic infection or progressive multifocal leukoencephalopathy (PML), an opportunistic infection caused by the JC virus (JCV).(1) PREDISPOSING FACTORS: Incomplete washout of previously prescribed immunosuppressive or immune-modulating medications. PATIENT MANAGEMENT: The siponimod US prescribing information state this information regarding this interaction: -Siponimod has not been studied in combination with anti-neoplastic, immune-modulating, or immunosuppressive therapies. Caution should be used during concomitant administration because of the risk of additive immune effects during therapy and in the week following administration. When switching from drugs with prolonged immune effects, the half-life and mode of action of these drugs must be considered in order to avoid unintended additive immunosuppressive effects. Initiating treatment with siponimod after alemtuzumab is not recommended. However, siponimod can generally be started immediately after discontinuation of beta interferon or glatiramer acetate.(1) DISCUSSION: Fatal disseminated herpes zoster and herpes simplex infections and cases of progressive multifocal leukoencephalopathy (PML) have been reported in patients who previously received immunomodulators or immunosuppressants.(1) |
MAYZENT |
| Cladribine/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Cladribine in combination with immunosuppressives and immune-modulators all suppress the immune system.(1-2) CLINICAL EFFECTS: Concurrent use of cladribine with immunosuppressive or immune-modulating agents may result in an increased risk of serious infections, such as disseminated herpetic infection or progressive multifocal leukoencephalopathy (PML), an opportunistic infection caused by the JC virus (JCV).(1-2) PREDISPOSING FACTORS: Incomplete washout of previously prescribed immunosuppressive or immune-modulating medications. PATIENT MANAGEMENT: Recommendations for cladribine regarding this interaction differ between regulatory approving agencies. The cladribine US prescribing information states: -Concomitant use with myelosuppressive or other immunosuppressive drugs is not recommended. Acute short-term therapy with corticosteroids can be administered. In patients who have previously been treated with immunomodulatory or immunosuppressive drugs, consider potential additive effect, the mode of action, and duration of effect of the other drugs prior to initiation of cladribine.(1) The cladribine Canadian prescribing information states: -Use of cladribine in immunocompromised patients is contraindicated because of a risk of additive effects on the immune system. Acute short-term therapy with corticosteroids can be administered during cladribine treatment.(2) DISCUSSION: Fatal disseminated herpes zoster and herpes simplex infections and cases of progressive multifocal leukoencephalopathy (PML) have been reported in patients who previously received immunomodulators or immunosuppressants.(1-2) |
CLADRIBINE, MAVENCLAD |
| Atogepant/CYP3A4 Inducers SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Strong, moderate, and weak CYP3A4 inducers may increase the metabolism of atogepant by CYP3A4.(1) CLINICAL EFFECTS: The concurrent use of strong, moderate, or weak CYP3A4 inducers with atogepant may result in decreased levels and clinical effectiveness of atogepant.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The manufacturer of atogepant recommends that patients on concomitant strong, moderate, or weak CYP3A4 inducers receive atogepant 30 mg or 60 mg once daily for prevention of episodic migraines and avoid use of atogepant for prevention of chronic migraines.(1) Patients receiving concurrent therapy with CYP3A4 inducers and atogepant should be observed for decreased clinical effectiveness. DISCUSSION: In a study of healthy subjects, rifampin, a strong CYP3A4 inducer, decreased the area-under-curve (AUC) and maximum concentration (Cmax) of atogepant by 60% and 30%, respectively. Topiramate, a weak CYP3A4 inducer, decreased atogepant AUC and Cmax by 25% and 24%, respectively.(1) Strong CYP3A4 inducers linked to this monograph include: apalutamide, barbiturates, carbamazepine, enzalutamide, fosphenytoin, ivosidenib, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifampin, rifapentine, and St. John's wort. Moderate CYP3A4 inducers linked to this monograph include: belzutifan, bosentan, cenobamate, dabrafenib, dipyrone, efavirenz, elagolix, etravirine, lesinurad, lorlatinib, mavacamten, mitapivat, modafinil, nafcillin, pacritinib, pexidartinib, repotrectinib, rifabutin, sotorasib, telotristat, thioridazine and tovorafenib. Weak CYP3A4 inducers linked to this monograph include: armodafinil, bexarotene, brigatinib, brivaracetam, clobazam, danshen, darolutamide, dexamethasone, dicloxacillin, echinacea, eslicarbazepine, floxacillin, garlic, genistein, ginseng, glycyrrhizin, methylprednisolone, mobocertinib, nevirapine, omaveloxolone, oritavancin, oxcarbazepine, pioglitazone, pitolisant, quercetin, relugolix, rufinamide, sarilumab, sulfinpyrazone, tazemetostat, tecovirimat, terbinafine, ticlopidine, topiramate, troglitazone, vemurafenib, vinblastine, and zanubrutinib.(1,2) |
QULIPTA |
| Selected Steroids/Selected Strong CYP3A4 Inhibitors SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Strong CYP3A4 inhibitors may inhibit the metabolism of corticosteroids metabolized by CYP3A4. CLINICAL EFFECTS: Concurrent use of strong CYP3A4 inhibitors may result in increased systemic exposure to and effects from corticosteroids metabolized by CYP3A4, including Cushing's syndrome and adrenal suppression. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: If possible, avoid concurrent therapy between betamethasone, budesonide, ciclesonide, fluticasone, dexamethasone, methylprednisolone, or triamcinolone and strong CYP3A4 inhibitors. Alternative corticosteroids that are less affected by CYP3A4 inhibitors should be considered, like beclomethasone, prednisone, and prednisolone. If concurrent therapy is warranted, patients should be closely monitored for systemic effects. The corticosteroid may need to be discontinued. DISCUSSION: In a study, boceprevir (800 mg TID for 7 days) increased the area-under-curve (AUC) of a single dose of prednisone (40 mg) by 22%. The maximum concentration (Cmax) and AUC of prednisolone increased by 16% and 37%, respectively.(3) A study of 14 healthy adults found that concurrent use of ketoconazole with ciclesonide increased the AUC of ciclesonide's active metabolite, des-ciclesonide, by approximately 3.6-fold at steady state, while levels of ciclesonide remained unchanged. However, the study concluded that no dosage adjustments were required because ciclesonide has a very low potential to cause side effects.(4) A study in 18 healthy subjects examined the effects of ritonavir (100 mg twice daily) on fluticasone nasal spray (200 mcg daily). In most subjects, fluticasone was undetectable (<10 pg/ml) when administered alone. In subjects in whom fluticasone was detectable when given alone, Cmax and area-under-curve AUC averaged 11.9 pg/ml and 8.43 pg x hr/ml, respectively. With concurrent ritonavir, fluticasone Cmax and AUC increased to 318 pg/ml and 3102.6 pg x hr/ml, respectively.(6-8) This reflects increases in Cmax and AUC by 25-fold and 350-fold, respectively.(6) The cortisol AUC decreased by 86%.(10-13) In a study in 10 healthy subjects, ritonavir (200 mg twice daily for 4 and 14 days) increased the AUC of a single dose of prednisolone by 1.41-fold and 1.30-fold, respectively, after 4 days and 14 days of ritonavir.(14) There have been several case reports of Cushing's syndrome in patients treated concurrently with ritonavir and inhaled budesonide,(15-16) dexamethasone,(17) injectable triamcinolone,(18-21) nasal fluticasone.(23-41) Hepatitis has also been reported with concurrent budesonide and ritonavir.(42) In a study in 9 healthy subjects, mibefradil (50 mg once daily for 3 days) increased the AUC, Cmax, and elimination half-life of methylprednisolone by 3.8-fold, 1.8-fold, and 2.7-fold, respectively.(43) In a study in 8 healthy subjects, following nefazodone administration the following changes were seen with methylprednisolone: mean (+/-SD) area under the concentration-time curve was significantly higher (1393 +/- 343 vs. 2966 +/- 928 ug*h/L; P < 0.005), apparent clearance was lower (28.7 +/- 7.2 vs. 14.6 +/- 7.8 L/h; P < 0.02) and the terminal elimination half-life was longer (2.28 +/- 0.49 vs. 3.32 +/- 0.95 hours; P < 0.02).(44) Selected steroids linked to this monograph include: betamethasone, budesonide, ciclesonide, dexamethasone, fluticasone, methylprednisolone, and triamcinolone.(45) Selected CYP3A4 inhibitors linked to this monograph include: adagrasib, boceprevir, ceritinib, lonafarnib, mibefradil, nefazodone, ribociclib, paritaprevir, telaprevir, and tucatinib.(1-2,45) |
KISQALI, KRAZATI, NEFAZODONE HCL, TUKYSA, ZOKINVY, ZYKADIA |
| Imatinib/Strong CYP3A4 Inducers SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Agents that induce the CYP3A4 isoenzyme may induce the metabolism of imatinib.(1) CLINICAL EFFECTS: Concurrent use of strong CYP3A4 inducers may decrease the levels and effectiveness of imatinib.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: Avoid the concurrent use of strong CYP3A4 inducers in patients receiving therapy with antineoplastic enzyme inhibitors. Consider the use of alternative agents with less enzyme induction potential.(1) The dose of imatinib should be increased by at least 50% and clinical response should be carefully monitored. Dosages up to 1,200 mg daily (600 mg twice daily) have been used in patients receiving concurrent therapy with strong CYP3A4 inducers.(1) DISCUSSION: Pretreatment of 14 healthy subjects with rifampin (600 mg daily for 10 days) increased the clearance of a single dose of imatinib (400 mg) by 3.8-fold. The area-under-curve (AUC) and maximum concentration (Cmax) decreased by 74% and 54%, respectively.(1,2) The Cmax of the CGP74588 metabolite increased by 88.6%, but the AUC of CGP74588 decreased by 11%.(2) Strong inducers of CYP3A4 include: barbiturates, dexamethasone, enzalutamide, fosphenytoin, mitotane, phenobarbital, phenytoin, primidone, rifampin, and rifapentine.(3,4) |
GLEEVEC, IMATINIB MESYLATE, IMKELDI |
| Lapatinib/Strong CYP3A4 Inducers SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Agents that induce the CYP3A4 isoenzyme may induce the metabolism of lapatinib.(1) CLINICAL EFFECTS: Concurrent use of strong CYP3A4 inducers may decrease the levels and effectiveness of lapatinib.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: Avoid the concurrent use of strong CYP3A4 inducers in patients receiving therapy with lapatinib. Consider the use of alternative agents with less enzyme induction potential.(1) The dose of lapatinib should be gradually titrated from 1,250 mg/day up to 4,500 mg/day (HER2 positive metastatic breast cancer indication) or from 1,500 mg/day up to 5,500 mg/day (hormone receptor positive, HER2 positive breast cancer indication) based on patient tolerability. If the inducer is discontinued, the dose of lapatinib should be adjusted to the normal dose.(1) DISCUSSION: In healthy subjects, carbamazepine (100 mg twice daily for 3 days and 200 mg twice daily for 17 days), another CYP3A4 inducer, decreased the area-under-curve (AUC) of lapatinib by 72%. The dose adjustment recommendations are based on pharmacokinetic studies and are predicted to adjust lapatinib AUC to the range observed without concurrent CYP3A4 inducers; however, there are no clinical data with these doses in patients receiving strong CYP3A4 inducers.(1) Strong inducers of CYP3A4 include: barbiturates, dexamethasone, enzalutamide, fosphenytoin, mitotane, phenobarbital, phenytoin, primidone, rifampin, and rifapentine.(2,3) |
LAPATINIB, TYKERB |
| Axitinib/Strong & Moderate CYP3A4 Inducers SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Agents that induce the CYP3A4 isoenzyme may induce the metabolism of axitinib.(1) CLINICAL EFFECTS: Concurrent use of strong or moderate CYP3A4 inducers may decrease the levels and effectiveness of axitinib.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: Avoid the concurrent use of strong or moderate CYP3A4 inducers in patients receiving therapy with axitinib.(1) Consider the use of alternatives with little to no induction potential.(1) DISCUSSION: Rifampin (600 mg daily for 9 days), a strong CYP3A4 inducer, decreased the maximum concentration (Cmax) and area-under-curve (AUC) of axitinib to less than half and less than 25% of levels seen without concurrent rifampin.(1) Strong inducers of CYP3A4 include: apalutamide, barbiturates, carbamazepine, dexamethasone, encorafenib, enzalutamide, ivosidenib, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifabutin, rifampin, rifapentine, and St. John's wort. Moderate inducers of CYP3A4 include: bosentan, cenobamate, dabrafenib, efavirenz, elagolix, etravirine, lesinurad, lorlatinib, mavacamten, mitapivat, modafinil, nafcillin, pacritinib, pexidartinib, repotrectinib, sotorasib, telotristat ethyl, thioridazine and tovorafenib.(1-3) |
INLYTA |
| Ritlecitinib/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Ritlecitinib, immunosuppressives, and immunomodulators all suppress the immune system. CLINICAL EFFECTS: Concurrent use of ritlecitinib with immunosuppressives or immunomodulators may result in an increased risk of serious infections. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The US manufacturer of ritlecitinib states that concurrent use of ritlecitinib with other JAK inhibitors, biologic immunomodulators, cyclosporine or other potent immunosuppressants is not recommended.(1) DISCUSSION: Serious infections have been reported in patients receiving ritlecitinib. Reported infections included appendicitis, COVID-19 infection (including pneumonia), and sepsis. Reports of viral reactivation, including herpes virus reactivation was reported in clinical studies with ritlecitinib.(1) |
LITFULO |
| Zuranolone/CYP3A4 Inducers SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Inducers of CYP3A4 may induce the metabolism of zuranolone.(1) CLINICAL EFFECTS: Concurrent use of a CYP3A4 inducer may result in a loss of zuranolone efficacy.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: Avoid the concurrent use of zuranolone with CYP3A4 inducers.(1) DISCUSSION: Coadministration of zuranolone with rifampin decreased the maximum concentration (Cmax) by 0.31-fold and area-under-curve (AUC) by 0.15-fold.(1) Strong CYP3A4 inducers linked to this monograph include: apalutamide, barbiturates, carbamazepine, encorafenib, enzalutamide, fosphenytoin, ivosidenib, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifampin, rifapentine, and St. John's wort. Moderate CYP3A4 inducers linked to this monograph include: belzutifan, bosentan, cenobamate, dabrafenib, dipyrone, efavirenz, elagolix, etravirine, lesinurad, lorlatinib, mavacamten, mitapivat, modafinil, nafcillin, pacritinib, pexidartinib, repotrectinib, rifabutin, sotorasib, telotristat ethyl, thioridazine, and tovorafenib. Weak CYP3A4 inducers linked to this monograph include: armodafinil, bexarotene, brigatinib, brivaracetam, clobazam, danshen, darolutamide, dexamethasone, dicloxacillin, echinacea, eslicarbazepine, flucloxacillin, garlic, genistein, ginseng, glycyrrhizin, methylprednisolone, mobocertinib, nevirapine, omaveloxolone, oritavancin, oxcarbazepine, pioglitazone, pitolisant, quercetin, relugolix, rufinamide, sarilumab, sulfinpyrazone, tazemetostat, tecovirimat, terbinafine, ticlopidine, topiramate, troglitazone, vemurafenib, vinblastine, and zanubrutinib.(2,3) |
ZURZUVAE |
| Erlotinib/Corticosteroids that Induce CYP3A4 SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Inducers of CYP3A4 may induce the metabolism of erlotinib.(1) CLINICAL EFFECTS: Concurrent or recent use of a CYP3A4 inducer may result in decreased levels and effectiveness of erlotinib.(1) In addition, concurrent use of corticosteroids may increase the risk of gastrointestinal perforation in patients receiving erlotinib. Fatalities have been reported.(1) PREDISPOSING FACTORS: Patients with a history of peptic ulceration or diverticular disease or who are receiving concomitant anti-angiogenic, NSAIDs, and/or taxane-based chemotherapy may be an increased risk of gastrointestinal perforation.(1) Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: Avoid the concurrent use of CYP3A4 inducers in patients receiving therapy with erlotinib. Consider the use of alternative agents with less enzyme induction potential.(1) Consider increasing the dosage of erlotinib by 50 mg increments as tolerated at two week intervals (to a maximum of 450 mg) while closely monitoring the patient. The highest dosage studied with concurrent rifampin is 450 mg. If the dosage of erlotinib is increased, it will need to be decreased when the inducer is discontinued.(1) Monitor patients receiving concurrent therapy for signs of gastrointestinal perforation. Discontinue erlotinib in patients who develop gastrointestinal perforation.(1) DISCUSSION: Pretreatment and concurrent therapy with rifampin increased erlotinib clearance by 3-fold and decreased the erlotinib area-under-curve (AUC) by 66% to 80%. This is equivalent to a dose of about 30 mg to 50 mg in NSCLC.(1) In a study, pretreatment with rifampin for 11 days decreased the AUC of a single 450 mg dose of erlotinib to 57.6% of the AUC observed with a single 150 mg dose of erlotinib.(1) In a case report, coadministration of phenytoin (180mg daily) and erlotinib (150mg daily) increased the phenytoin concentration from 8.2mcg/ml to 24.2mcg/ml and decreased the erlotinib concentration 12-fold (from 1.77mcg/ml to 0.15mcg/ml) and increased the erlotinib clearance by 10-fold (from 3.53 L/h to 41.7 L/h).(2) In a study, concurrent use of sorafenib (400 mg twice daily) and erlotinib (150 mg daily) decreased the concentration minimum (Cmin), concentration maximum (Cmax), and AUC of erlotinib.(3) In an animal study, concurrent use of dexamethasone and erlotinib decreased the AUC of erlotinib by 0.6-fold.(4) In a phase II trial of concurrent bevacizumab plus erlotinib, 2 of 13 patients suffered fatal gastrointestinal perforations.(5) In another phase II trial of concurrent bevacizumab with erlotinib, 1 of 104 patients died of gastrointestinal perforation.(6) Two patients developed gastrointestinal perforations while taking erlotinib, corticosteroids, and ciprofloxacin.(7) Corticosteroids that induce CYP3A4 include: dexamethasone and methylprednisolone.(8,9) |
ERLOTINIB HCL, TARCEVA |
| Etrasimod/Immunosuppressives; Immunomodulators SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Etrasimod causes reversible sequestration of lymphocytes in lymphoid tissues, resulting in a mean 55% decrease in peripheral blood lymphocyte count at 52 weeks.(1) Other immunosuppressives and immune-modulators also suppress the immune system. CLINICAL EFFECTS: Concurrent use of etrasimod with immunosuppressive or immune-modulating agents may result in an increased risk of serious and fatal infections, such as disseminated herpetic infection, cryptococcal infection, or progressive multifocal leukoencephalopathy (PML).(1) PREDISPOSING FACTORS: Incomplete washout of previously prescribed immunosuppressive or immune-modulating medications increases the risk of adverse effects. PATIENT MANAGEMENT: The etrasimod US prescribing information states etrasimod has not been studied in combination with anti-neoplastic, immune-modulating, or immunosuppressive therapies. Concomitant administration of these therapies with etrasimod should be avoided because of the risk of additive immune effects during therapy and in the weeks following administration. Etrasimod's effect on peripheral lymphocytes may persist for up to 5 weeks after discontinuation.(1) When switching from drugs with prolonged immune effects, the half-life and mode of action of these drugs must be considered in order to avoid unintended additive immunosuppressive effects.(1) DISCUSSION: Fatal disseminated herpes zoster and herpes simplex infections, cryptococcal meningitis, disseminated cryptococcal infections, and cases of progressive multifocal leukoencephalopathy (PML) have been reported in patients treated with other sphingosine-1 phosphate receptor modulators.(1) |
VELSIPITY |
| Ropeginterferon alfa-2b/Slt Immunosuppress; Immunomodulator SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Ropeginterferon alfa-2b and immunosuppressives both suppress the immune system. CLINICAL EFFECTS: Concurrent use of ropeginterferon alfa-2b with immunosuppressives may result in an increased risk of serious infections. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Avoid concurrent use of myelosuppressive agents.(1-2) If concurrent use cannot be avoided, monitor for effects of excessive immunosuppression. DISCUSSION: In clinical trials, 20% of patients experienced leukopenia. Interferon alfa products may cause fatal or life-threatening infections.(1-2) |
BESREMI |
| Sodium Iodide I 131/Myelosuppressives that affect Iodide SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Sodium iodide I 131 can cause depression of the hematopoetic system. Myelosuppressives and immunomodulators also suppress the immune system.(1) Many compounds can affect iodide protein binding and alter iodide pharmacokinetics and pharmacodynamics. CLINICAL EFFECTS: Concurrent use of sodium iodide I 131 with agents that cause bone marrow depression, including myelosuppressives or immunomodulators, may result in an enhanced risk of hematologic disorders, including anemia, blood dyscrasias, bone marrow depression, leukopenia, and thrombocytopenia. Bone marrow depression may increase the risk of serious infections and bleeding.(1) Compounds that affect iodide pharmacokinetics and pharmacodynamics may impact the effectiveness of radioactive iodide.(1,2) PREDISPOSING FACTORS: Compounds that affect iodide pharmacokinetics and pharmacodynamics are expected to have the most impact during therapy using radioactive iodide. Diagnostic procedures would be expected to be impacted less. PATIENT MANAGEMENT: The US manufacturer of sodium iodide I 131 states that concurrent use with bone marrow depressants may enhance the depression of the hematopoetic system caused by large doses of sodium iodide I 131.(1) Sodium iodide I 131 causes a dose-dependent bone marrow suppression, including neutropenia or thrombocytopenia, in the 3 to 5 weeks following administration. Patients may be at increased risk of infections or bleeding during this time. Monitor complete blood counts within one month of therapy. If results indicate leukopenia or thrombocytopenia, dosimetry should be used to determine a safe sodium iodide I 131 activity.(1) Discuss the use of agents that affect iodide pharmacokinetics and pharmacodynamics with the patient's oncologist.(1,2) DISCUSSION: Hematologic disorders including death have been reported with sodium iodide I 131. The most common hematologic disorders reported include anemia, blood dyscrasias, bone marrow depression, leukopenia, and thrombocytopenia.(1) Many agents interact with radioactive iodine. The average duration of effect is: anticoagulants - 1 week antihistamines - 1 week anti-thyroid drugs, e.g: carbimazole, methimazole, propylthiouracil - 3-5 days corticosteroids - 1 week iodide-containing medications, e.g: amiodarone - 1-6 months expectorants - 2 weeks Lugol solution - 3 weeks saturated solution of potassium iodine - 3 weeks vitamins - 10-14 days iodide-containing X-ray contrast agents - up to 1 year lithium - 4 weeks phenylbutazone - 1-2 weeks sulfonamides - 1 week thyroid hormones (natural or synthetic), e.g.: thyroxine - 4 weeks tri-iodothyronine - 2 weeks tolbutamide - 1 week topical iodide - 1-9 months (1,2) |
HICON, SODIUM IODIDE I-131 |
There are 20 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 |
|---|---|
| Corticosteroids/Hormonal Contraceptives; Estrogens SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: It is speculated that hormonal contraceptives and estrogens inhibit hepatic metabolism of some corticosteroids as well as endogenous cortisol. Competitive protein binding may also contribute to elevations in serum corticosteroids. CLINICAL EFFECTS: Concurrent use of hormonal contraceptives or estrogens may result in an increase in the therapeutic and toxic effects of corticosteroids. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Patients receiving concurrent hormonal contraceptives or estrogen should be observed for symptoms of corticosteroid toxicity. A lower corticosteroid dose may be required. DISCUSSION: In a study in 6 healthy females controlled on long-term oral contraceptives, subjects received either a placebo or high and low-dose prednisolone (0.53 and 0.14 mg/Kg iv). Both dosages of prednisolone decreased the total clearance, unbound clearance, and volume of distribution (Vd) at maximum concentration (Cmax) of total drug. Significant increases in half-life for free and unbound prednisolone and hydrocortisone concentrations were also observed in comparison to the placebo group. In a study in 8 females controlled on oral contraceptive therapy, 8 females not receiving contraceptive therapy, and 8 males, each subject received prednisolone 40 mg iv. The plasma clearance of total prednisolone in females on OC was 96 ml/min, which was significantly lower than those in both the male and female (205 and 187 ml/min, respectively) control groups. Prednisolone half-life and mean residence times were increased. The oral contraceptive group had a significantly higher (2-fold) concentration of transcortin, resulting in lower clearance, decreased Vd, and a 2-fold increase in the area-under-curve (AUC) for prednisolone. A clinical trial demonstrated the interaction between prednisolone (20 mg) and oral contraceptives containing ethinyl estradiol (30 mcg). The oral contraceptive users had an average plasma concentration of prednisolone 131% higher compared to the control group, and plasma cortisol levels were suppressed by approximately 90%. No differences were reported for ethinyl estradiol levels. In a study in 8 females taking oral contraceptives and 8 females who were were not, subjects received IV doses of prednisolone at 0.1 mg/Kg and 1.0 mg/Kg. Free prednisolone clearance was reduced by approximately 30% in the contraceptive receiving subjects compared to the control group, and plasma cortisol concentrations were reduced 2-fold compared to the control group. 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. |
2-METHOXYESTRADIOL, ACTIVELLA, AFIRMELLE, ALTAVERA, ALYACEN, AMETHIA, AMETHYST, ANGELIQ, ANNOVERA, APRI, ARANELLE, ASHLYNA, AUBRA, AUBRA EQ, AUROVELA, AUROVELA 24 FE, AUROVELA FE, AVIANE, AYUNA, AZURETTE, BALCOLTRA, BALZIVA, BEYAZ, BIJUVA, BLISOVI 24 FE, BLISOVI FE, BRIELLYN, CAMRESE, CAMRESE LO, CAZIANT, CHARLOTTE 24 FE, CHATEAL EQ, CLIMARA, CLIMARA PRO, COMBIPATCH, COVARYX, COVARYX H.S., CRYSELLE, CYRED, CYRED EQ, DASETTA, DAYSEE, DELESTROGEN, DEPO-ESTRADIOL, DESOGESTR-ETH ESTRAD ETH ESTRA, DIETHYLSTILBESTROL, DIVIGEL, DOLISHALE, DOTTI, DROSPIRENONE-ETH ESTRA-LEVOMEF, DROSPIRENONE-ETHINYL ESTRADIOL, DUAVEE, EEMT, EEMT H.S., ELESTRIN, ELINEST, ELURYNG, ENILLORING, ENPRESSE, ENSKYCE, ESTARYLLA, ESTRACE, ESTRADIOL, ESTRADIOL (ONCE WEEKLY), ESTRADIOL (TWICE WEEKLY), ESTRADIOL BENZOATE, ESTRADIOL CYPIONATE, ESTRADIOL HEMIHYDRATE, ESTRADIOL HEMIHYDRATE MICRO, ESTRADIOL MICRONIZED, ESTRADIOL VALERATE, ESTRADIOL-NORETHINDRONE ACETAT, ESTRATEST F.S., ESTRATEST H.S., ESTRING, ESTRIOL, ESTRIOL MICRONIZED, ESTROGEL, ESTROGEN-METHYLTESTOSTERONE, ESTRONE, ETHINYL ESTRADIOL, ETHYNODIOL-ETHINYL ESTRADIOL, ETONOGESTREL-ETHINYL ESTRADIOL, EVAMIST, FALMINA, FEIRZA, FEMLYV, FEMRING, FINZALA, FYAVOLV, GEMMILY, HAILEY, HAILEY 24 FE, HAILEY FE, HALOETTE, ICLEVIA, ISIBLOOM, JAIMIESS, JASMIEL, JINTELI, JOLESSA, JOYEAUX, JULEBER, JUNEL, JUNEL FE, JUNEL FE 24, KAITLIB FE, KALLIGA, KARIVA, KELNOR 1-35, KELNOR 1-50, KURVELO, LARIN, LARIN 24 FE, LARIN FE, LAYOLIS FE, LEENA, LESSINA, LEVONEST, LEVONORG-ETH ESTRAD ETH ESTRAD, LEVONORG-ETH ESTRAD-FE BISGLYC, LEVONORGESTREL-ETH ESTRADIOL, LEVORA-28, LO LOESTRIN FE, LO-ZUMANDIMINE, LOESTRIN, LOESTRIN FE, LOJAIMIESS, LORYNA, LOW-OGESTREL, LUTERA, LYLLANA, MARLISSA, MENEST, MENOSTAR, MERZEE, MIBELAS 24 FE, MICROGESTIN, MICROGESTIN FE, MILI, MIMVEY, MINIVELLE, MINZOYA, MONO-LINYAH, MYFEMBREE, NATAZIA, NECON, NEXTSTELLIS, NIKKI, NORELGESTROMIN-ETH ESTRADIOL, NORETHIN-ETH ESTRA-FERROUS FUM, NORETHINDRON-ETHINYL ESTRADIOL, NORETHINDRONE-E.ESTRADIOL-IRON, NORGESTIMATE-ETHINYL ESTRADIOL, NORTREL, NUVARING, NYLIA, OCELLA, ORIAHNN, ORTHO TRI-CYCLEN, ORTHO-NOVUM, PHILITH, PIMTREA, PORTIA, PREMARIN, PREMPHASE, PREMPRO, RECLIPSEN, RIVELSA, SAFYRAL, SETLAKIN, SIMLIYA, SIMPESSE, SLYND, SPRINTEC, SRONYX, SYEDA, TARINA 24 FE, TARINA FE, TARINA FE 1-20 EQ, TAYTULLA, TILIA FE, TRI-ESTARYLLA, TRI-LEGEST FE, TRI-LINYAH, TRI-LO-ESTARYLLA, TRI-LO-MARZIA, TRI-LO-MILI, TRI-LO-SPRINTEC, TRI-MILI, TRI-SPRINTEC, TRI-VYLIBRA, TRI-VYLIBRA LO, TRIVORA-28, TURQOZ, TWIRLA, TYBLUME, VAGIFEM, VALTYA, VELIVET, VESTURA, VIENVA, VIORELE, VIVELLE-DOT, VOLNEA, VYFEMLA, VYLIBRA, WERA, WYMZYA FE, XARAH FE, XELRIA FE, XULANE, YASMIN 28, YAZ, YUVAFEM, ZAFEMY, ZARAH, ZOVIA 1-35, ZUMANDIMINE |
| Corticosteroids/Selected Strong CYP3A4 Inducers SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Strong CYP3A4 inducers may induce the metabolism of corticosteroids. Corticosteroids may affect the metabolism of phenytoin. CLINICAL EFFECTS: Concurrent or recent use of strong CYP3A4 inducers may result in decreased levels and effectiveness of corticosteroids. Dexamethasone has been shown to increase and decrease phenytoin levels. PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: Patients receiving concurrent therapy with a strong CYP3A4 inducer should be monitored for decreased effectiveness of their corticosteroid. Increased dosage of corticosteroid may be required during concurrent therapy and for several weeks after completing concurrent therapy. If concurrent therapy is discontinued, the dosage of the corticosteroid may need to be adjusted. Phenytoin levels should be closely monitored in patients receiving corticosteroids. The dosage of phenytoin may need to be adjusted if corticosteroids are initiated or discontinued. DISCUSSION: Carbamazepine has been shown to increase the metabolism of methylprednisolone, prednisolone, and prednisone, resulting in decreased levels and effectiveness of these agents. Phenobarbital has been shown to increase the metabolism of dexamethasone, methylprednisolone, and prednisolone. Primidone is metabolized to phenobarbital. Phenytoin has been shown to increase the metabolism of dexamethasone, hydrocortisone, methylprednisolone, prednisolone, and prednisone, resulting in decreased levels and effectiveness of these agents Rifampin has been shown to increase the metabolism of cortisol, dexamethasone, methylprednisolone, prednisolone, and prednisone. Strong CYP3A4 inducers linked to this monograph include: apalutamide, barbiturates, carbamazepine, encorafenib, enzalutamide, fosphenytoin, ivosidenib, lumacaftor, mitotane, phenobarbital, phenytoin, primidone, rifabutin, rifapentine, rifampin, and St. John's wort. |
ASA-BUTALB-CAFFEINE-CODEINE, ASCOMP WITH CODEINE, BRAFTOVI, BUTALB-ACETAMINOPH-CAFF-CODEIN, BUTALBITAL, BUTALBITAL-ACETAMINOPHEN, BUTALBITAL-ACETAMINOPHEN-CAFFE, BUTALBITAL-ASPIRIN-CAFFEINE, CARBAMAZEPINE, CARBAMAZEPINE ER, CARBATROL, CEREBYX, DILANTIN, DILANTIN-125, DONNATAL, EPITOL, EQUETRO, ERLEADA, FIORICET, FIORICET WITH CODEINE, FOSPHENYTOIN SODIUM, LYSODREN, MITOTANE, MYSOLINE, ORKAMBI, PENTOBARBITAL SODIUM, PHENOBARBITAL, PHENOBARBITAL SODIUM, PHENOBARBITAL-BELLADONNA, PHENOBARBITAL-HYOSC-ATROP-SCOP, PHENOHYTRO, PHENYTEK, PHENYTOIN, PHENYTOIN SODIUM, PHENYTOIN SODIUM EXTENDED, PRIFTIN, PRIMIDONE, RIFABUTIN, RIFADIN, RIFAMPIN, SEZABY, TALICIA, TEGRETOL, TEGRETOL XR, TENCON, TIBSOVO, XTANDI |
| NSAIDs/Corticosteroids SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Concurrent use of NSAIDs and corticosteroids result in additive risk of GI ulceration. CLINICAL EFFECTS: Concurrent use of NSAIDs and corticosteroids may increase the incidence and/or severity of GI irritation or ulceration, including increasing the risk for bleeding. PREDISPOSING FACTORS: Risk of GI bleed may be increased in patients who are of older age, in poor health status, or who use alcohol or smoke. Risk may also be increased by concurrent use of anticoagulants, antiplatelets, selective serotonin reuptake inhibitors (SSRIs) or serotonin-norepinephrine reuptake inhibitors (SNRIs); with longer duration of NSAID use; and with prior history of peptic ulcer disease and/or GI bleeding. The risk for bleeding episodes may be greater in patients with disease-associated factors (e.g. thrombocytopenia, advanced liver disease). PATIENT MANAGEMENT: Monitor patients receiving concurrent therapy carefully for signs of gastrointestinal ulceration. Use the lowest effective NSAID dose for the shortest duration possible. 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. Instruct patients to report signs of GI bleeding such as black, tarry stools; "coffee ground" vomit; nausea; or stomach/abdominal pain. DISCUSSION: Concurrent use of NSAIDs and corticosteroids increase the risk of GI bleeding. |
ANAPROX DS, ANJESO, ARTHROTEC 50, ARTHROTEC 75, BROMFENAC SODIUM, BUPIVACAINE-KETOROLAC-KETAMINE, CALDOLOR, CAMBIA, CELEBREX, CELECOXIB, COMBOGESIC, COMBOGESIC IV, CONSENSI, COXANTO, DAYPRO, DICLOFENAC, DICLOFENAC POTASSIUM, DICLOFENAC SODIUM, DICLOFENAC SODIUM ER, DICLOFENAC SODIUM MICRONIZED, DICLOFENAC SODIUM-MISOPROSTOL, EC-NAPROSYN, ELYXYB, ETODOLAC, ETODOLAC ER, FELDENE, FENOPROFEN CALCIUM, FENOPRON, FLURBIPROFEN, HYDROCODONE-IBUPROFEN, IBU, IBUPAK, IBUPROFEN, IBUPROFEN LYSINE, IBUPROFEN-FAMOTIDINE, INDOCIN, INDOMETHACIN, INDOMETHACIN ER, INFLAMMACIN, INFLATHERM(DICLOFENAC-MENTHOL), KETOPROFEN, KETOPROFEN MICRONIZED, KETOROLAC TROMETHAMINE, KIPROFEN, LODINE, LOFENA, LURBIPR, MECLOFENAMATE SODIUM, MEFENAMIC ACID, MELOXICAM, NABUMETONE, NABUMETONE MICRONIZED, NALFON, NAPRELAN, NAPROSYN, NAPROTIN, NAPROXEN, NAPROXEN SODIUM, NAPROXEN SODIUM CR, NAPROXEN SODIUM ER, NAPROXEN-ESOMEPRAZOLE MAG, NEOPROFEN, OXAPROZIN, PHENYLBUTAZONE, PIROXICAM, R.E.C.K.(ROPIV-EPI-CLON-KETOR), RELAFEN DS, ROPIVACAINE-CLONIDINE-KETOROLC, ROPIVACAINE-KETOROLAC-KETAMINE, SULINDAC, SUMATRIPTAN SUCC-NAPROXEN SOD, SYMBRAVO, TOLECTIN 600, TOLMETIN SODIUM, TORONOVA II SUIK, TORONOVA SUIK, TOXICOLOGY SALIVA COLLECTION, TRESNI, TREXIMET, VIMOVO, VIVLODEX, ZIPSOR, ZORVOLEX |
| Corticosteroids/Selected Macrolide Antibiotics SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Some macrolide antibiotics may inhibit the metabolism of corticosteroids. CLINICAL EFFECTS: Concurrent use of some macrolide antibiotics may result in elevated levels and clinical effects of corticosteroids. Immunosuppression and Cushing's syndrome have been reported during concurrent therapy, including therapy with inhaled corticosteroids. PREDISPOSING FACTORS: Concurrent administration of enzyme inducing drugs. PATIENT MANAGEMENT: Patients receiving concurrent therapy with corticosteroids and macrolide antibiotics should be monitored for increased corticosteroid affects. The dosage of the corticosteroid may need to be adjusted or the macrolide antibiotic may need to be discontinued. One US manufacturer of inhaled fluticasone states that the concurrent use of macrolide antibiotics is not recommended.(1) DISCUSSION: In a study in 10 steroid-dependent asthmatics, concurrent troleandomycin (1 gram/day) decreased methylprednisolone clearance by 60%. All subjects developed adverse effects typical of excessive corticosteroid use such as weight gain, fluid retention, and cushingoid features.(2) Other studies and reports have shown increased methylprednisolone levels with concurrent troleandomycin,(3-10) in some of these reports, the interaction was used to lower steroid dosages.(6-10) There is one report of fatal varicella infection in a patient receiving concurrent therapy with methylprednisolone and troleandomycin.(11) Cushing's syndrome has been reported with concurrent inhaled budesonide and clarithromycin.(12) Psychosis(13) and mania(14) have been reported with concurrent prednisone and clarithromycin. Erythromycin(3-9) and troleandomycin(9) have also been reported to interact with methylprednisolone. |
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 |
| Caspofungin/Dexamethasone SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Dexamethasone may induce the metabolism of caspofungin by CYP3A4.(1) CLINICAL EFFECTS: The concurrent administration of caspofungin with dexamethasone may result in decreased levels and clinical effectiveness of caspofungin.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: In adult patients receiving concurrent therapy with dexamethasone, the US manufacturer of caspofungin recommends that an increase in the daily dose of caspofungin to 70 mg (following the usual 70 mg loading dose) be considered.(1) In pediatric patients receiving concurrent therapy with dexamethasone, the US manufacturer of caspofungin recommends that an increase in the daily dose of caspofungin to 70 mg/m2 (to a maximum of 70 mg daily, following the usual 70 mg/m2 loading dose) be considered.(1) DISCUSSION: Regression analyses of patient pharmacokinetic data suggests that administration of caspofungin with inducers and or mixed inducers/ inhibitors of drug clearance may result in clinically significant decreases in caspofungin concentrations. Therefore, the manufacturer of caspofungin recommends that an increase in the daily dose of caspofungin to 70 mg (following the usual 70 mg loading dose) be considered in patients receiving concurrent therapy with dexamethasone. The efficacy of a 70 mg daily dose in patients who are not responding to the 50 mg daily dose is not known, but limited safety data suggests that it is well tolerated.(1) |
CANCIDAS, CASPOFUNGIN ACETATE |
| Anticoagulants/Corticosteroids SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Corticosteroids may increase the coagulability of blood, thus decreasing the effect of the anticoagulant.(1,2) Corticosteroids may also lower vascular integrity, which could increase the risk of hemorrhage.(3,4) CLINICAL EFFECTS: Concurrent use of corticosteroids may result in either increased (increased risk of bleeding) or decreased effects (increased risk of treatment failure) of anticoagulants. PREDISPOSING FACTORS: 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: The patient's clotting times should be monitored closely, along with any clinical signs of hemorrhage or clot formation. The dosage of the anticoagulant may need to be adjusted accordingly. 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. When applicable, perform agent-specific laboratory test (e.g. INR, aPTT) to monitor efficacy and safety of anticoagulation. 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: Corticotropin and other corticosteroids have been shown to both increase (3,5-11) and decrease (1,12,13) the effects of acenocoumarol, dicumarol, fluindione, and warfarin. Hemorrhagic episodes have been associated with concurrent use of these medications.(3,5) 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, DICUMAROL, ELMIRON, JANTOVEN, PENTOSAN POLYSULFATE SODIUM, PHENINDIONE, WARFARIN SODIUM |
| Dexamethasone; Methylprednisolone/Aprepitant (Greater Than 40 mg); Fosaprepitant SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Aprepitant and fosaprepitant may inhibit the metabolism of dexamethasone and methylprednisolone by CYP3A4.(1,2) CLINICAL EFFECTS: Concurrent use with multiple dose of aprepitant or fosaprepitant without dosage adjustments of the corticosteroid may result in elevated levels of the corticosteroids and adverse effects.(1,2) PREDISPOSING FACTORS: The effects of the interaction are greater when the corticosteroids are administered orally versus intravenously.(1) PATIENT MANAGEMENT: The US manufacturer states that the dosage of oral dexamethasone should be reduced by 50% when administered with the 125/80 mg regimen of aprepitant(1) or with fosaprepitant.(2) No dosage adjustment is required with single 40 mg doses of aprepitant.(1) The US manufacturer states that the dosage of oral methylprednisolone should be reduced by 50% and that the dosage of intravenous methylprednisolone should be reduced by 25% when methylprednisolone is administered with the 125/80 mg regimen of aprepitant(1) or with fosaprepitant.(2) No dosage adjustment is required with single 40 mg doses of aprepitant.(1) DISCUSSION: In a clinical trial, the administration of oral dexamethasone (20 mg on Day 1, then 8 mg Days 2-5) and aprepitant (125 mg on Day 1, then 80 mg Days 2-5) increased the dexamethasone area-under-curve (AUC) by 2.2-fold on Days 1 and 5. A single dose of aprepitant (40 mg) increased the AUC of a single dose of dexamethasone (20 mg) by 1.45-fold.(1) In another clinical trial, the administration of methylprednisolone (125 mg intravenously on Day 1, then 40 mg orally Days 2-3) and aprepitant (125 mg on Day 1, then 80 mg Days 2-3) increased methylprednisolone AUC by 1.34-fold on Day 1 and by 2.5-fold on Day 3.(1) In a study in 440 subjects receiving aprepitant (40 mg or 125 mg), the clearance of single dose intravenous dexamethasone was decreased by 24.7% and 47.5% when coadministered with aprepitant 40 mg or 125 mg, respectively, compared to dexamethasone alone.(3) |
APREPITANT, CINVANTI, EMEND, FOCINVEZ, FOSAPREPITANT DIMEGLUMINE |
| Bupropion/Steroids SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Both bupropion and systemic steroids are known to lower the seizure threshold.(1,2) CLINICAL EFFECTS: Concurrent use of bupropion and systemic steroids may result in additive effects on the seizure threshold, increasing the risk of seizures.(1,2) PREDISPOSING FACTORS: The risk of seizures may be increased in patients with a history of head trauma or prior seizure; CNS tumor; severe hepatic cirrhosis; excessive use of alcohol or sedatives; addiction to opiates, cocaine, or stimulants; use of over-the-counter stimulants an anorectics; a total daily dose of bupropion greater than 450 mg or single doses greater than 150 mg; rapid escalation of bupropion dosage; diabetics treated with oral hypoglycemics or insulin; or with concomitant medications known to lower seizure threshold (antidepressants, antipsychotics, theophylline).(1,2) PATIENT MANAGEMENT: The concurrent use of bupropion and systemic steroids should be undertaken only with extreme caution and with low initial bupropion dosing and small gradual dosage increases.(1,2) Single doses should not exceed 150 mg.(1,2) The maximum daily dose of bupropion should not exceed 300 mg for smoking cessation(2) or 450 mg for depression.(1) DISCUSSION: Because of the risk of seizure from concurrent bupropion and other agents that lower seizure threshold, the manufacturer of bupropion states that the concurrent use of bupropion and systemic steroids should be undertaken only with extreme caution and with low initial bupropion dosing and small gradual dosage increases.(1,2) |
APLENZIN, AUVELITY, BUPROPION HCL, BUPROPION HCL SR, BUPROPION XL, CONTRAVE, FORFIVO XL, WELLBUTRIN SR, WELLBUTRIN XL |
| Quinolones/Corticosteroids SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Quinolone-induced arthropathy is a class effect of the quinolones.(1) Exactly how corticosteroid use increases the risk of tendon rupture is unknown. CLINICAL EFFECTS: Concurrent use of quinolones and corticosteroids may increase the risk of tendonitis and/or tendon rupture. This affect is most common in the Achilles tendon, but has been reported in the rotator cuff (shoulder), hand, biceps, thumb, and other tendons.(2-9) PREDISPOSING FACTORS: Risk factors for tendinitis and tendon rupture include age greater than 60; a history of kidney, heart, or lung transplantation, strenuous physical activity, renal failure, and previous tendon disorders such as rheumatoid arthritis. PATIENT MANAGEMENT: Quinolone use should be discontinued if the patient experiences pain, inflammation, or rupture of a tendon. Patients should be instructed to rest and refrain from exercise until the diagnosis of tendonitis tendon rupture has been excluded.(2-9) DISCUSSION: Ruptures of the shoulder, hand, Achilles tendon, or other tendons that required surgical repair or resulted in prolonged disability have been reported in patients receiving ciprofloxacin,(2) gatifloxacin,(3) levofloxacin,(4) lomefloxacin,(5) moxifloxacin,(6) nalidixic acid,(7) norfloxacin,(8) and ofloxacin.(9) A retrospective review of the IMS Health database examined quinolone use use from July 1, 1992 to June 30, 1998. The adjusted relative risk of tendon disorder with concurrent quinolone use was 1.9. Relative risk increased to 3.2 in patients aged 60 or older compared to 0.9 in patients aged less than 60. In patients aged 60 or older who used corticosteroids and quinolones concurrently, relative risk increased to 6.2.(10) In contrast, another retrospective review examined patients from a health insurance claims database and found no apparent effect from concurrent quinolone and corticosteroid use.(11) In a review of the follow-up to 42 spontaneously reported case of quinolone-associated tendon disorders in the Netherlands between January, 1988 and January, 1998, risk factors for tendon disorders included age older than 60, oral corticosteroid use, and existing joint problems.(12) In a review of the Swiss Drug Monitoring system, four of seven cases of levofloxacin-associated tendon problems also involved concurrent oral or inhaled corticosteroids.(13) In a review of the Medline database from 1966-2001, 98 case reports of tendinopathy associated with quinolones were located. Thirty-two (32.7%) of the patients had received systemic or inhaled corticosteroids before and during quinolone therapy. Of the 40 patients who suffered a tendon rupture, 21 (52.5%) were receiving corticosteroids.(14) Other authors have reported cases of tendon disorders in patients receiving concurrent corticosteroids and ciprofloxacin,(15) levofloxacin, (16-20) and ofloxacin.(21) |
AVELOX IV, BAXDELA, CIPRO, CIPROFLOXACIN, CIPROFLOXACIN HCL, CIPROFLOXACIN-D5W, GATIFLOXACIN SESQUIHYDRATE, LEVOFLOXACIN, LEVOFLOXACIN HEMIHYDRATE, LEVOFLOXACIN-D5W, MOXIFLOXACIN, MOXIFLOXACIN HCL, NALIDIXIC ACID, OFLOXACIN |
| Selected Corticosteroids/Selected Azole Antifungal Agents SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Itraconazole, ketoconazole, posaconazole, and voriconazole may inhibit the CYP3A4 mediated metabolism of some corticosteroids, resulting in increased systemic exposure. Itraconazole and ketoconazole may also suppress endogenous cortisol output. CLINICAL EFFECTS: Concurrent use of itraconazole, ketoconazole, posaconazole, or voriconazole may result in elevated levels of and effects from the corticosteroid, including Cushing syndrome. These effects have been seen with systemic as well as inhaled corticosteroids. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Patients should be carefully monitored with concurrent administration of these agents, or when itraconazole, ketoconazole, posaconazole, or voriconazole is added to corticosteroid therapy. The dose of the corticosteroid may need to be adjusted or alternative therapy considered. DISCUSSION: In a randomized, double-blind, cross-over study in 10 healthy subjects, pretreatment with itraconazole (200 mg daily for 5 days) increased the area-under-curve (AUC) and maximum concentration (Cmax) of a single inhaled dose of budesonide (1000 mcg) by 4.2-fold and 1.6-fold, respectively. Suppression of cortisol production was increased 43%.(1) A study examined adrenal insufficiency in 25 cystic fibrosis patients treated with itraconazole and inhaled budesonide and in 12 patients receiving itraconazole alone. Eleven of the 25 patients receiving concurrent itraconazole and budesonide and none of the patients receiving only itraconazole had adrenal insufficiency.(2) There are case reports of Cushing syndrome in patients receiving concurrent itraconazole (range 200 mg to 800 mg daily) and inhaled budesonide (range 400 mcg to 1400 mcg daily).(3-5) The concurrent use of ketoconazole has been shown to increase budesonide area-under-curve (AUC) by eight-fold.(6) In a study in eight healthy subjects, the simultaneous administration of ketoconazole increased budesonide AUC by 6.5-fold. Administering the two agents 12 hours apart increased budesonide AUC by 3.8-fold.(7) There are case reports of Cushing syndrome in patients receiving concurrent itraconazole (range 100 mg to 400 mg daily) and inhaled fluticasone (range 250 mcg to 1.5 mg daily).(8,9) In a randomized, placebo-controlled, crossover, four phase study in 8 healthy subjects, itraconazole decreased the systemic clearance of intravenous dexamethasone by 68%, increased the area-under-curve (AUC) of dexamethasone by 3.3-fold, and prolonged its half-life by 3.2-fold. The AUC of oral dexamethasone was increased 3.7-fold, maximum concentration (Cmax) was increased by 1.7-fold, and the elimination half-life was prolonged 2.8-fold by itraconazole.(10) In a randomized, cross-over study in 14 healthy subjects, pretreatment with itraconazole (400 mg Day 1, 200 mg Days 2-4) increased the AUC of a single oral dose of methylprednisolone by 1.5-fold. Cortisol levels were significantly lower after concurrent therapy than with methylprednisolone alone.(11) There is a case report of Cushing syndrome following the addition of itraconazole (400 mg daily) to methylprednisolone (12 mg/day).(12) In a study in 6 healthy subjects, pretreatment with ketoconazole (200 mg daily) increased the AUC of a single intravenous dose of methylprednisolone (20 mg) by 135% and decreased its clearance by 60%. Concurrent ketoconazole also increased the reduction in 24-hour cortisol AUC and suppressed morning cortisol concentrations.(13) In a study in 8 healthy subjects, ketoconazole decreased the clearance of methylprednisolone by 46% and increased mean residence time by 37%.(14) In a randomized, cross-over study in 14 healthy subjects, pretreatment with itraconazole (400 mg Day 1, 200 mg Days 2-4) had no effect on the pharmacokinetics of a single oral dose of prednisone (60 mg).(11) In a randomized, cross-over study in 6 healthy subjects, pretreatment with ketoconazole (200 mg daily for 6 days) had no effect on the pharmacokinetics of a single intravenous dose of prednisolone (14.8 mg).(15) In a randomized, double-blind, cross-over study in 10 healthy subjects, pretreatment with itraconazole (200 mg daily for 4 days) increased the AUC and half-life of a single oral dose of prednisolone (20 mg) by 24% and 29%, respectively.(16) In a study, concurrent oral ketoconazole increased the AUC of des-ciclesonide from orally inhaled ciclesonide by 3.6-fold. There were no changes in ciclesonide levels.(17) In a study in 24 healthy subjects, subjects were randomized to receive either ketoconazole (200 mg BID) or placebo on Days 4-9 of a a 9 day course of mometasone (400 mcg BID). No subject had mometasone levels greater than 150 pcg/ml on Day 3. Four of 12 subjects who received ketoconazole had mometasone Cmax levels greater than 200 mcg/ml on Day 9. Plasma cortisol levels appeared to decrease as well.(18) In a cross-over study in 15 healthy subjects, subjects were randomized to receive fluticasone furoate and vilanterol on days 5-11 with either ketoconazole (200mg once daily) or placebo for days 1-11 with a washout period of 7-14 days. Fluticasone furoate AUC was increased by 36%, Cmax was increased by 33%, and decreased systemic cortisol levels by 27%. There were no effects on heart rate and blood potassium levels. There was a small increase in QTc which was 7.6ms greater when compared to placebo; however, ketoconazole has been reported to increase QTc by 5-6ms. Vilanterol AUC was increased by 65% and Cmax was increased by 22%. There were no effects on heart rate and blood potassium levels. No serious adverse events occurred and no subjects withdrew from the study due to adverse events. The most common adverse event reported was headache. (19) Coadministration of orally inhaled fluticasone (1000 mcg) and ketoconazole (200 mg once daily) resulted in a 1.9-fold increase in plasma fluticasone exposure and a 45% decrease in plasma cortisol AUC.(20) There is a case report of Cushing syndrome following the addition of voriconazole (200 mg twice daily for 21 days for 2 courses) to budesonide,(21) as well as voriconazole added to intranasal mometasone(22) and inhaled fluticasone.(22) There is a case report of Cushing syndrome following the addition of posaconazole (200 mg three times daily) to inhaled fluticasone.(23) |
ITRACONAZOLE, ITRACONAZOLE MICRONIZED, KETOCONAZOLE, NOXAFIL, POSACONAZOLE, SPORANOX, TOLSURA, VFEND, VFEND IV, VORICONAZOLE |
| Exemestane/Selected Moderate-Weak CYP3A4 Inducers SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: CYP3A4 inducers may induce the metabolism of exemestane.(1) CLINICAL EFFECTS: Concurrent use of a CYP3A4 inducer may result in decreased levels and effectiveness of exemestane.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The US manufacturer of exemestane recommends that patients receiving concurrent therapy with a strong CYP3A4 inducer receive 50 mg of exemestane daily after a meal.(1) It may be prudent to consider a dosage increase for patients receiving weaker CYP3A4 inducers. DISCUSSION: In a study in 10 healthy postmenopausal subjects, pretreatment with rifampin (a strong CYP3A4 inducer, 600 mg daily for 14 days) decreased the area-under-curve (AUC) and maximum concentration (Cmax) of a single dose of exemestane (25 mg) by 54% and 41%, respectively.(1) Strong inducers of CYP3A4 would be expected to decrease the AUC of a sensitive 3A4 substrate by 80% or more and include: carbamazepine, enzalutamide, mitotane, phenobarbital, phenytoin, rifabutin, rifampin, and St. John's wort.(1-3) Moderate inducers of CYP3A4 would be expected to decrease the AUC of a sensitive 3A4 substrate by 50-80% and include: belzutifan, bosentan, cenobamate, dabrafenib, dipyrone, efavirenz, elagolix, etravirine, lesinurad, mavacamten, mitapivat, modafinil, nafcillin, pacritinib, pexidartinib, repotrectinib, rifabutin, sotorasib, telotristat ethyl, thioridazine, and tovorafenib.(2,3) Weak inducers of CYP3A4 would be expected to decrease the AUC of a sensitive 3A4 substrate by 20-50% and include: armodafinil, bexarotene, brigatinib, brivaracetam, clobazam, danshen, darolutamide, dexamethasone, dicloxacillin, echinacea, elafibranor, enasidenib, eslicarbazepine, floxacillin, garlic, gingko, ginseng, glycyrrhizin, lorlatinib, meropenem-vaborbactam, methylprednisolone, nevirapine, omaveloxolone, oritavancin, oxcarbazepine, pioglitazone, pitolisant, quercetin, relugolix, rufinamide, sarilumab, sulfinpyrazone, suzetrigine, tazemetostat, tecovirimat, terbinafine, ticlopidine, topiramate, troglitazone, vemurafenib, vinblastine, and zanubrutinib.(2,3) |
AROMASIN, EXEMESTANE |
| Vecuronium/Dexamethasone; Methylprednisolone SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The mechanism of action is not clear. CLINICAL EFFECTS: Concurrent use may increase the risk for critical illness polyneuromyopathy (CIPM). PREDISPOSING FACTORS: Possible risk factors include: extended (> 48 hour) duration of continuous paralysis, high dose corticosteroids, and use in patients with septic shock. PATIENT MANAGEMENT: For patients receiving combination therapy, it would be prudent to limit use of high-dose corticosteroids to conditions where the benefit is clear, and to use vecuronium for the shortest duration possible, preferably < 48 hours. When possible, avoid concomitant use of vecuronium and high-dose corticosteroids in patients with septic shock. Closely monitor magnitude and duration of paralysis as per institutional protocol. DISCUSSION: Although the pathophysiology of CIPM is incompletely understood, authors generally agree that concurrent use of vecuronium and high dose corticosteroids is associated with additive or synergistic risk for CIPM. |
VECURONIUM BROMIDE, VECURONIUM BROMIDE-WATER |
| Dexamethasone/Lenalidomide; Thalidomide SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The mechanism of this interaction is unknown. CLINICAL EFFECTS: Concurrent use of dexamethasone with lenalidomide or thalidomide may increase the risk of venous thromboembolism (VTE), ischemic heart disease including myocardial infarction, and stroke.(1,2) PREDISPOSING FACTORS: The effects of the interaction are greater with high-dose dexamethasone (480 mg/month or more).(3) Erythropoietic agents may also increase the risk.(1,2) PATIENT MANAGEMENT: The US manufacturer of lenalidomide states the risk of deep vein thrombosis (DVT) and pulmonary embolism (PE) is significantly increased when lenalidomide and dexamethasone are given concurrently in patients with multiple myeloma and recommends thromboprophylaxis and the regimen should be selected based on the patient's underlying risks. Observe patients for signs and symptoms of venous thromboembolism (VTE) and instruct patients to see medical care if they develop symptoms such as shortness of breath, chest pain, or arm or leg swelling.(1) The US manufacturer of thalidomide states the risk of VTE increases significantly when thalidomide is used with concurrent therapy with standard chemotherapeutic agents including dexamethasone therapy and recommends considering thromboprophylaxis based on an assessment of individual patients' underlying risk factors. Observe patients closely for signs and symptoms of VTE and instruct patients to see medical care if they develop symptoms such as shortness of breath, chest pain, or arm or leg swelling.(2) The National Comprehensive Cancer Network (NCCN) Guidelines recommend VTE chemoprophylaxis with low-molecular weight heparin (LMWH) with a dose equivalent to enoxaparin 40 mg once daily or full-dose warfarin with a dose to maintain a target international normalized ratio (INR) 2-3.(3) DISCUSSION: The National Comprehensive Cancer Network (NCCN) Guidelines include lenalidomide/thalidomide plus high-dose dexamethasone as a treatment-related venous thromboembolism (VTE) risk factor for cancer patients. High-dose dexamethasone is defined by NCCN as >/= 480 mg per month. The NCCN Guidelines recommend VTE chemoprophylaxis with low-molecular weight heparin (LMWH) at a dose equivalent to enoxaparin 40 mg once daily or full-dose warfarin with a dose to maintain a target international normalized ratio (INR) 2-3.(3) The US manufacturer states the standard dosing for multiple myeloma includes lenalidomide (25 mg daily) on days 1-21 of the 28-day cycle and dexamethasone (40 mg daily) on days 1, 8, 15, and 22 of the 28-day cycle.(1) The dexamethasone dose is adjusted for patients >75 years old to 20 mg daily on days 1, 8, 15, and 22 of the 28-day cycle.(1) In 2 studies of 703 patients who received at least one dose of lenalidomide/dexamethasone or placebo/dexamethasone, the incidence of DVT was 9.3% and 4.3%, respectively. In the same population, the incidence of grade 3/4 adverse reactions the incidence of DVT was 8.2% and 3.4%, respectively, and the incidence of serious adverse reactions of DVT was 7.4% and 3.1%, respectively. The US manufacturer states the standard dosing for multiple myeloma includes combination therapy with thalidomide (200 mg daily) and dexamethasone (40 mg daily on days 1-4, 9-12, and 17-20) in a 28-day treatment cycle.(2) The overall rate of adverse reactions in clinical trials for multiple myeloma resulting in treatment discontinuation were 30% in the thalidomide/dexamethasone group and 16% in the dexamethasone monotherapy group.(2) In a safety study of 466 subjects, the incidence of DVT was higher in the thalidomide/dexamethasone arm than in the placebo/dexamethasone arm with 13% versus 2%, respectively.(2) In a safety study of Grade 3/4 adverse drug reactions, the thalidomide/dexamethasone arm had a 12% incidence of DVT compared to a 2% incidence in the placebo/dexamethasone arm.(2) A summary article discusses the incidence of VTE in patients receiving treatment for multiple myeloma. The use of thalidomide as a single agent does not significantly increase the risk of VTE in both new diagnoses and relapsed/refractory patients with a VTE incidence of 3-4% and 2-4%, respectively. The addition of dexamethasone to thalidomide increased the risk of VTE in newly diagnosed patients with an incidence of 14-26%. Similarly, the use of lenalidomide as a single agent does not increase the risk of VTE. Lenalidomide with dexamethasone increased the incidence of VTE in newly diagnosed patients as well as relapsed/refractory patients to 75% and 17%, respectively. Concurrent therapy with lenalidomide and dexamethasone showed a difference in the incidence of VTE based on the dexamethasone dose (high dose defined as 480 mg/month and low dose defined as 160 mg/month) with higher doses associated with an increase risk (26% versus 12% incidence, respectively). The incidence of VTE in studies with thalidomide alone range from 1.5-4.6% versus studies with thalidomide/dexamethasone at 7-26%.(4) Several studies have evaluated the optimal VTE prophylaxis agent with lenalidomide-treated patients. Patients receiving lenalidomide/dexamethasone and no chemoprophylaxis had a VTE incidence of 11-75%, 26% with the use of aspirin, 17% with the use of aspirin/LMWH/warfarin combination therapy, and 2-15% with the use of LMWH. (5) Several studies have evaluated the optimal VTE prophylaxis agent in thalidomide-treated patients. Patients receiving thalidomide/dexamethasone and no chemoprophylaxis had a VTE incidence of 26%, 10% with the use of low-dose warfarin and 0% with the use of therapeutic warfarin/LMWH.(5) Lenalidomide/dexamethasone compared to placebo/dexamethasone increased the rate of myocardial infarction (1.7% versus 0.6%, respectively) and stroke (2.3% versus 0.9%, respectively).(1) Thalidomide/dexamethasone compared to placebo/dexamethasone increased the rate of ischemic heart disease (11.1% versus 4.7%, respectively), including myocardial infarction (1.3% versus 1.7%, respectively), and stroke (2.6% versus 0.9%, respectively).(2) |
LENALIDOMIDE, REVLIMID, THALOMID |
| Ubrogepant/Moderate and Weak CYP3A4 Inducers SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Moderate or weak CYP3A4 inducers may induce the metabolism of ubrogepant.(1) CLINICAL EFFECTS: Concurrent use of a moderate or weak CYP3A4 inducer may result in decreased levels and effectiveness of ubrogepant.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The manufacturer recommends a dosage adjustment of ubrogepant when coadministered with moderate or weak CYP3A4 inducers. Initial dose of ubrogepant should be 100 mg. If a second dose is needed, the dose of ubrogepant should be 100 mg.(1) DISCUSSION: Coadministration of ubrogepant with rifampin, a strong CYP3A4 inducer, resulted in an 80% reduction in ubrogepant exposure. No dedicated drug interaction studies were conducted to assess concomitant use with moderate or weak CYP3A4 inducers. Dose adjustment for concomitant use of ubrogepant with moderate or weak CYP3A4 inducers is recommended based on a conservative prediction of 50% reduction in exposure of ubrogepant.(1) Moderate inducers of CYP3A4 would be expected to decrease the AUC of a sensitive 3A4 substrate by 50-80% and include: belzutifan, bosentan, cenobamate, dabrafenib, dipyrone, efavirenz, elagolix, etravirine, lesinurad, lorlatinib, mavacamten, mitapivat, modafinil, nafcillin, pexidartinib, rifabutin, telotristat, thioridazine, and tovorafenib.(2,3) Weak inducers of CYP3A4 would be expected to decrease the AUC of a sensitive 3A4 substrate by 20-50% and include: armodafinil, bexarotene, brigatinib, brivaracetam, clobazam, danshen, dexamethasone, dicloxacillin, echinacea, elafibranor, enasidenib, eslicarbazepine, floxacillin, garlic, genistein, ginseng, glycyrrhizin, meropenem-vaborbactam, methylprednisolone, nevirapine, omaveloxolone, oritavancin, oxcarbazepine, pioglitazone, pitolisant, relugolix, repotrectinib, rufinamide, sarilumab, sulfinpyrazone,suzetrigine, tazemetostat, tecovirimat, terbinafine, ticlopidine, topiramate, troglitazone, vemurafenib, vinblastine, and zanubrutinib.(2,3) |
UBRELVY |
| Gallium Ga 68 Dotatate/Corticosteroids SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: High-dose corticosteroids may down-regulate somatostatin subtype 2 receptors, the main binding site for gallium Ga 68 dotatate.(1) CLINICAL EFFECTS: Repeated use of high doses of corticosteroids before use of gallium Ga 68 dotatate may result in false negative imaging results.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: In patients receiving high-dose corticosteroids prior to use of gallium Ga 68 dotatate, interpret imaging results with caution and in the context of the patient's clinical presentation. DISCUSSION: Repeated use of high doses of corticosteroids before use of gallium Ga 68 dotatate may result in false negative imaging results due to down-regulation of the somatostatin subtype 2 receptor.(1) |
GALLIUM GA-68 DOTATOC, NETSPOT |
| Selected Corticosteroids/Levoketoconazole SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Levoketoconazole may inhibit the CYP3A4 mediated metabolism of some corticosteroids, resulting in increased systemic exposure. Levoketoconazole may also suppress endogenous cortisol output. Levoketoconazole is the enantiomer of ketoconazole. CLINICAL EFFECTS: Concurrent use of levoketoconazole may result in elevated levels of and effects from the corticosteroid, including Cushing syndrome. These effects have been seen with systemic as well as inhaled corticosteroids. PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Patients should be carefully monitored with concurrent administration of these agents, or when levoketoconazole is added to corticosteroid therapy. The dose of the corticosteroid may need to be adjusted or alternative therapy considered. DISCUSSION: The concurrent use of ketoconazole has been shown to increase budesonide area-under-curve (AUC) by eight-fold. In a study in eight healthy subjects, the simultaneous administration of ketoconazole increased budesonide AUC by 6.5-fold. Administering the two agents 12 hours apart increased budesonide AUC by 3.8-fold. In a study in 6 healthy subjects, pretreatment with ketoconazole (200 mg daily) increased the AUC of a single intravenous dose of methylprednisolone (20 mg) by 135% and decreased its clearance by 60%. Concurrent ketoconazole also increased the reduction in 24-hour cortisol AUC and suppressed morning cortisol concentrations. In a study in 8 healthy subjects, ketoconazole decreased the clearance of methylprednisolone by 46% and increased mean residence time by 37%. In a randomized, cross-over study in 6 healthy subjects, pretreatment with ketoconazole (200 mg daily for 6 days) had no effect on the pharmacokinetics of a single intravenous dose of prednisolone (14.8 mg). In a study, concurrent oral ketoconazole increased the AUC of des-ciclesonide from orally inhaled ciclesonide by 3.6-fold. There were no changes in ciclesonide levels. In a study in 24 healthy subjects, subjects were randomized to receive either ketoconazole (200 mg BID) or placebo on Days 4-9 of a a 9 day course of mometasone (400 mcg BID). No subject had mometasone levels greater than 150 pcg/ml on Day 3. Four of 12 subjects who received ketoconazole had mometasone Cmax levels greater than 200 mcg/ml on Day 9. Plasma cortisol levels appeared to decrease as well. In a cross-over study in 15 healthy subjects, subjects were randomized to receive fluticasone furoate and vilanterol on days 5-11 with either ketoconazole (200mg once daily) or placebo for days 1-11 with a washout period of 7-14 days. Fluticasone furoate AUC was increased by 36%, Cmax was increased by 33%, and decreased systemic cortisol levels by 27%. There were no effects on heart rate and blood potassium levels. There was a small increase in QTc which was 7.6ms greater when compared to placebo; however, ketoconazole has been reported to increase QTc by 5-6ms. Vilanterol AUC was increased by 65% and Cmax was increased by 22%. There were no effects on heart rate and blood potassium levels. No serious adverse events occurred and no subjects withdrew from the study due to adverse events. The most common adverse event reported was headache. Coadministration of orally inhaled fluticasone (1000 mcg) and ketoconazole (200 mg once daily) resulted in a 1.9-fold increase in plasma fluticasone exposure and a 45% decrease in plasma cortisol AUC. |
RECORLEV |
| Tacrolimus/Moderate and Weak CYP3A4 Inducers SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Moderate or weak CYP3A4 inducers may accelerate the metabolism of tacrolimus.(1) CLINICAL EFFECTS: Concurrent use of a moderate or weak CYP3A4 inducer may result in decreased levels and effectiveness of tacrolimus.(1) PREDISPOSING FACTORS: Induction effects may be more likely with regular use of the inducer for longer than 1-2 weeks. PATIENT MANAGEMENT: The manufacturer of tacrolimus recommends monitoring tacrolimus whole blood trough concentrations and adjusting tacrolimus dose if needed. Monitor clinical response closely.(1) DISCUSSION: A 13-year-old cystic fibrosis patient with a history of liver transplant on stable doses of tacrolimus underwent 2 separate courses of nafcillin therapy (a moderate CYP3A4 inducer). During the 1st course of nafcillin, his tacrolimus levels started to fall 3 days after starting nafcillin, became undetectable at day 8, and recovered to therapeutic levels without a change in tacrolimus dose 5 days after discontinuation of nafcillin. During the 2nd course of nafcillin, tacrolimus level became undetectable 4 days after starting nafcillin and recovered 3 days after stopping nafcillin.(2) Moderate inducers of CYP3A4 would be expected to decrease the AUC of a sensitive 3A4 substrate by 50-80% and include: belzutifan, bosentan, cenobamate, dabrafenib, dipyrone, elagolix, etravirine, lesinurad, lorlatinib, mavacamten, modafinil, nafcillin, repotrectinib, telotristat, and tovorafenib.(3,4) Weak inducers of CYP3A4 would be expected to decrease the AUC of a sensitive 3A4 substrate by 20-50% and include: armodafinil, bexarotene, brigatinib, brivaracetam, clobazam, danshen, darolutamide, dexamethasone, dicloxacillin, echinacea, elafibranor, enasidenib, eslicarbazepine, floxacillin, garlic, genistein, ginseng, glycyrrhizin, meropenem-vaborbactam, nevirapine, oritavancin, omaveloxolone, oxcarbazepine, pioglitazone, relugolix, rufinamide, sulfinpyrazone, suzetrigine, tazemetostat, tecovirimat, terbinafine, ticlopidine, topiramate, troglitazone, vinblastine, and zanubrutinib.(3,4) |
ASTAGRAF XL, ENVARSUS XR, PROGRAF, TACROLIMUS, TACROLIMUS XL |
| Selected Steroids/Nirmatrelvir-Ritonavir SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Nirmatrelvir/ritonavir may inhibit the metabolism of corticosteroids metabolized by CYP3A4.(1) CLINICAL EFFECTS: Nirmatrelvir/ritonavir may result in increased systemic exposure to and effects from corticosteroids metabolized by CYP3A4.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Coadministration with corticosteroids of all routes of administration of which exposures are significantly increased by strong CYP3A4 inhibitors can increase the risk of Cushing's syndrome and adrenal suppression. However, the risk of Cushing's syndrome and adrenal suppression associated with short-term use of a strong CYP3A4 inhibitor is low.(1) The manufacturer of nirmatrelvir/ritonavir recommends considering alternative corticosteroids including beclomethasone, prednisone, and prednisolone.(1) DISCUSSION: Concurrent use of a single dose of midazolam 2 mg, a CYP3A4 substrate, with nirmatrelvir-ritonavir (300 mg/100 mg twice daily for nine doses) increased the maximum concentration (Cmax) and area-under-curve (AUC) of midazolam by 37% and 143%, respectively.(1) A study in 18 healthy subjects examined the effects of ritonavir (100 mg twice daily) on fluticasone nasal spray (200 mcg daily). In most subjects, fluticasone was undetectable (<10 pg/ml) when administered alone. In subjects in whom fluticasone was detectable when given alone, Cmax and area-under-curve AUC averaged 11.9 pg/ml and 8.43 pg x hr/ml, respectively. With concurrent ritonavir, fluticasone Cmax and AUC increased to 318 pg/ml and 3102.6 pg x hr/ml, respectively.(7,11,13) This reflects increases in Cmax and AUC by 25-fold and 350-fold, respectively.(3) The cortisol AUC decreased by 86%.(3-6) In a study in 10 healthy subjects, ritonavir (200 mg twice daily for 4 and 14 days) increased the AUC of a single dose of prednisolone by 1.41-fold and 1.30-fold, respectively, after 4 days and 14 days of ritonavir.(7) Selected steroids linked to this monograph include: budesonide, ciclesonide, dexamethasone, fluticasone, methylprednisolone, and triamcinolone.(8) |
PAXLOVID |
| Systemic Corticosteroids; Corticotropin/Non-Live or Non-Replicating Vaccines SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Corticosteroids and corticotropin suppress the immune system and may alter the immune system's response to vaccines.(1) CLINICAL EFFECTS: Vaccines administered during or within 2 weeks prior to therapy with corticosteroids or corticotropin may result in decreased effectiveness of the vaccine.(1) PREDISPOSING FACTORS: Patients receiving immunosuppressive doses of corticosteroids or corticotropin for equal to or greater than 14 consecutive days.(1) PATIENT MANAGEMENT: The Centers for Disease Control's (CDC) Advisory Committee on Immunization Practices (ACIP) states that non-live vaccines should be used with caution in patients who are severely immunosuppressed, including those who are receiving or have received high-dose, systemic steroids for greater than or equal to 14 consecutive days. When initiating immunosuppressives doses of corticosteroids, wait 2 weeks after a non-live vaccines is administered. However, if patients require therapy for chronic inflammatory conditions, do not delay therapy due to past vaccines.(1) The immune response to non-live vaccines should be monitored in patients receiving corticosteroids. Vaccinations given during corticosteroid therapy may need to be repeated.(1) Patients who are vaccinated within the 14 days prior to initiating immunosuppressive therapy should be considered unvaccinated and should be revaccinated at least 3 months after immunosuppressive therapy is discontinued when immune competence is restored.(1) DISCUSSION: Vaccinations given during and within 2 weeks prior to corticosteroid therapy may be less effective. However they are considered safe to administer.(1) Many clinicians consider a dose equivalent to either 2 mg/kg of body weight or a total of 20 mg/day of prednisone as sufficiently immunosuppressive to raise safety concerns about live-virus vaccines.(1) Immunization procedures may be undertaken in patients receiving corticosteroids when the therapy is short term (less than 2 weeks); low to moderate dose; long-term, alternate-day treatment with short-acting preparations; maintenance physiologic doses (replacement therapy); or administered topically (skin or eyes), by aerosol, or by intra-articular, bursal, or tendon injection.(1) |
ACTHIB, ADACEL TDAP, AREXVY, AREXVY ANTIGEN COMPONENT, BEXSERO, BIOTHRAX, BOOSTRIX TDAP, CAPVAXIVE, COMIRNATY 2024-2025, CYFENDUS (NATIONAL STOCKPILE), DAPTACEL DTAP, ENGERIX-B ADULT, ENGERIX-B PEDIATRIC-ADOLESCENT, GARDASIL 9, HAVRIX, HEPLISAV-B, HIBERIX, IMOVAX RABIES VACCINE, INFANRIX DTAP, IPOL, IXIARO, JYNNEOS, JYNNEOS (NATIONAL STOCKPILE), KINRIX, MENQUADFI, MENVEO A-C-Y-W-135-DIP, MENVEO MENA COMPONENT, MENVEO MENCYW-135 COMPONENT, MODERNA COVID 24-25(6M-11Y)EUA, MRESVIA, NOVAVAX COVID 2024-2025 (EUA), PEDIARIX, PEDVAXHIB, PENBRAYA, PENBRAYA MENACWY COMPONENT, PENBRAYA MENB COMPONENT, PENTACEL, PENTACEL ACTHIB COMPONENT, PENTACEL DTAP-IPV COMPONENT, PFIZER COVID 2024-25(5-11Y)EUA, PFIZER COVID 2024-25(6M-4Y)EUA, PNEUMOVAX 23, PREVNAR 20, QUADRACEL DTAP-IPV, RABAVERT, RECOMBIVAX HB, SHINGRIX, SHINGRIX GE ANTIGEN COMPONENT, SPIKEVAX 2024-2025, TDVAX, TENIVAC, TICOVAC, TRUMENBA, TWINRIX, TYPHIM VI, VAQTA, VAXELIS, VAXNEUVANCE, VIMKUNYA |
| Capivasertib/Corticosteroids SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Capivasertib may cause severe hyperglycemia. Corticosteroids also cause hyperglycemia.(1) CLINICAL EFFECTS: Concurrent use of capivasertib with corticosteroids may cause severe hyperglycemia.(1) PREDISPOSING FACTORS: Patients with a medical history of diabetes mellitus and in patients with risk factors for hyperglycemia, such as obesity (BMI >= 30), elevated fasting glucose of > 160 mg/dL, HbA1c at or above the upper limit of normal, or intercurrent infections, may be at increased risk for hyperglycemia.(1) PATIENT MANAGEMENT: The US manufacturer of capivasertib recommends monitoring fasting blood glucose more frequently in patients on concomitant systemic corticosteroids.(1) If hyperglycemia occurs after starting capivasertib, monitor fasting glucose as clinically indicated and at least twice weekly until fasting glucose returns to normal.(1) DISCUSSION: Because capivasertib has been associated with severe hyperglycemia, fasting blood glucose should be monitored closely during the concurrent use of corticosteroids with capivasertib therapy.(1) In clinical studies, hyperglycemia occurred in 18% of patients treated with capivasertib. Grade 3 (insulin therapy initiated; hospitalization indicated) or Grade 4 (life-threatening consequences; urgent intervention indicated) hyperglycemia occurred in 2.8% of patients. Diabetic ketoacidosis occurred in 0.3% of patients and diabetic metabolic decompensation in 0.6% of patients. Dose reduction for hyperglycemia was required in 0.6% of patients and permanent discontinuation was required in 0.6% of patients. The median time to first occurrence of hyperglycemia was 15 days (range: 1 to 367).(1) In the 65 patients with hyperglycemia, 45% required treatment with anti-hyperglycemic medication (insulin in 15%, and metformin in 29%). Of the 29 patients who required anti-hyperglycemic medication during treatment with capivasertib, 66% (19/29) remained on these medications at treatment discontinuation or last follow up.(1) |
TRUQAP |
The following contraindication information is available for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl):
Drug contraindication overview.
No enhanced Contraindications information available for this drug.
No enhanced Contraindications information available for this drug.
There are 12 contraindications.
Absolute contraindication.
| Contraindication List |
|---|
| Adams-stokes syndrome |
| Arginase deficiency |
| Argininosuccinate lyase deficiency |
| Carbamoyl phosphate synthetase deficiency |
| Cerebral malaria |
| Citrullinemia |
| Hyperammonemia associated with n-acetylglutamate synthase deficiency |
| Methemoglobinemia |
| Ornithine carbamoyltransferase deficiency |
| Severe heart block |
| Systemic lidocaine toxicity |
| Wolff-parkinson-white pattern |
There are 33 severe contraindications.
Adequate patient monitoring is recommended for safer drug use.
| Severe List |
|---|
| Amebae infection |
| Avascular necrosis of bone |
| Cataracts |
| Cerebral trauma |
| Chronic heart failure |
| Chronic kidney disease stage 4 (severe) GFR 15-29 ml/min |
| Fungal infection |
| Gastritis |
| Glucose-6-phosphate dehydrogenase (g6Pd) deficiency |
| Hemolytic anemia from pyruvate kinase and g6PD deficiencies |
| Hypokalemia |
| Hypovolemia |
| Hypoxia |
| Inactive tuberculosis |
| Incomplete AV heart block |
| Intestinal anastomosis |
| Measles |
| Measles contact |
| Myasthenia gravis |
| Ocular herpes simplex |
| Ocular hypertension |
| Osteopenia |
| Osteoporosis |
| Pheochromocytoma |
| Respiratory depression |
| Shock |
| Sinus bradycardia |
| Strongyloidiasis |
| Tendon rupture |
| Untreated active tuberculosis |
| Varicella contact |
| Varicella zoster virus infection |
| Viral hepatitis B |
There are 21 moderate contraindications.
Clinically significant contraindication, where the condition can be managed or treated before the drug may be given safely.
| Moderate List |
|---|
| Atrial fibrillation |
| Diabetes mellitus |
| Disease of liver |
| Diverticulitis of gastrointestinal tract |
| Edema |
| Hepatic cirrhosis |
| Hypercholesterolemia |
| Hypertension |
| Hypokalemia |
| Hypothalamic-pituitary insufficiency |
| Hypothyroidism |
| Immunosuppression |
| Infection |
| Muscle atrophy |
| Myopathy |
| Myopathy with CK elevation |
| Open angle glaucoma |
| Pathological fracture |
| Peptic ulcer |
| Psychotic disorder |
| Seizure disorder |
The following adverse reaction information is available for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl):
Adverse reaction overview.
No enhanced Common Adverse Effects information available for this drug.
No enhanced Common Adverse Effects information available for this drug.
There are 57 severe adverse reactions.
| More Frequent | Less Frequent |
|---|---|
|
Infection |
Adrenocortical insufficiency Diabetes mellitus Gastrointestinal hemorrhage Hypercortisolism Hypotension Osteoporosis |
| Rare/Very Rare |
|---|
|
Abnormal hepatic function tests Anaphylaxis Angioedema Bradycardia Bronchospastic pulmonary disease Cardiac arrhythmia Central serous chorioretinopathy Chondrolysis of articular cartilage Chronic heart failure CNS toxicity Drug-induced psychosis Fat embolism Fracture Fungal infection Gastrointestinal perforation Glaucoma Hemiparesis Hepatitis Hepatomegaly Hypertension Hypokalemia Hypothalamic-pituitary insufficiency Idiopathic intracranial hypertension Impaired wound healing Kaposi's sarcoma Leukocytosis Methemoglobinemia Myocardial dysfunction Myopathy Ocular hypertension Osteopenia Pancreatitis Peptic ulcer Pheochromocytoma Pulmonary edema Pulmonary thromboembolism Respiratory depression Seizure disorder Skin atrophy Status asthmaticus Tachycardia Tendon rupture Thromboembolic disorder Thrombophlebitis Tumor lysis syndrome Unconsciousness Urticaria Vasculitis Vasodilation of blood vessels Ventricular arrhythmias |
There are 81 less severe adverse reactions.
| More Frequent | Less Frequent |
|---|---|
|
Gastric acid hypersecretory conditions Hyperglycemia Insomnia Steroid-induced hyperglycemia |
Body fluid retention Bruising Chills Cough Headache disorder Hypernatremia Injection site sequelae Irregular menstrual periods Malaise Sinusitis |
| Rare/Very Rare |
|---|
|
Abdominal distension Acne vulgaris Acute cognitive impairment Allergic dermatitis Anticholinergic toxicity Apprehension Arthralgia Arthritis Blurred vision Cataracts Depression Diplopia Dizziness Drowsy Dry skin Dysgeusia Ecchymosis Edema Erythema Esophagitis Euphoria Exophthalmos Facial edema Fatigue Flushing Genital organ pruritus Headache disorder Hiccups Hirsutism Hypercalcinuria Hyperhidrosis Hypoesthesia Increased appetite Injection site infection Injection site sequelae Lipodystrophy Memory impairment Miosis Mood changes Muscle fasciculation Muscle spasm Muscle weakness Myalgia Nausea Nervousness Ocular infection Oligospermia Oral hypoesthesia Paresthesia Peripheral sensory neuropathy Personality disorders Petechiae Postmenopausal bleeding Pruritus of skin Sensation of cold Sensation of warmth Skin hypopigmentation Skin rash Symptoms of anxiety Syncope Tachycardia Tinnitus Tremor Vertigo Visual changes Vomiting Weight gain |
The following precautions are available for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl):
No enhanced Pediatric Use information available for this drug.
Contraindicated
Severe Precaution
Management or Monitoring Precaution
Contraindicated
| None |
Severe Precaution
| None |
Management or Monitoring Precaution
| None |
No enhanced Pregnancy information available for this drug.
No enhanced Lactation information available for this drug.
No enhanced Geriatric Use information available for this drug.
The following prioritized warning is available for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl):
No warning message for this drug.
No warning message for this drug.
The following icd codes are available for LIDOCIDEX-I (dexamethasone sodium phosphate/lidocaine hcl)'s list of indications:
No ICD codes found for this drug.
No ICD codes found for this drug.
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