Tramadol Hcl-Acetaminophen

Drug overview for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen):

Generic name: TRAMADOL HCL/ACETAMINOPHEN (TRAM-a-dol/a-SEET-a-MIN-oh-fen)
Drug class: Non-Opioid Analgesic/Antipyretic, Non-Salicylate
Therapeutic class: Analgesic, Anti-inflammatory or Antipyretic

Acetaminophen is a synthetic nonopiate derivative of p-aminophenol that produces analgesia and antipyresis. Tramadol hydrochloride is a synthetic opiate agonist and inhibitor of norepinephrine and serotonin uptake.

Acetaminophen is used extensively in the treatment of mild to moderate pain and fever.

DRUG IMAGES

TRAMADOL-ACETAMINOPHN 37.5-325

The following indications for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen) have been approved by the FDA:

Indications:
Pain

Professional Synonyms:
None.

The following dosing information is available for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen):

Dosing
Administration
TRAMADOL HCL-ACETAMINOPHEN
TRAMADOL HCL-ACETAMINOPHEN

Opiate agonists should be given at the lowest effective dosage and for the shortest duration of therapy consistent with the treatment goals of the patient. The initial dosage of tramadol must be individualized, taking into account the patient's severity of pain, response, prior analgesic use, and risk factors for addiction, abuse, and misuse. Dosage should be titrated to a level that provides adequate analgesia and minimizes adverse effects.

If concomitant therapy with other CNS depressants is required, the lowest effective dosages and shortest possible duration of concomitant therapy should be used. (See Concomitant Use with Benzodiazepines or Other CNS Depressants under Cautions: Precautions and Contraindications.)

Because of the greater frequency of decreased hepatic, renal, and/or cardiac function and of concomitant disease and/or drug therapy in geriatric patients, care should be taken in dosage selection for such patients. The manufacturers recommend that geriatric patients receive initial dosages of tramadol hydrochloride alone in the lower end of the usual range and that the dosage not exceed 300 mg daily in those older than 75 years of age. Dosage of tramadol hydrochloride should be titrated slowly in geriatric patients, with close monitoring for CNS and respiratory depression.

Appropriate dosage selection and titration are essential to reduce the risk of respiratory depression. Patients should be monitored closely for respiratory depression, especially during the first 24-72 hours of therapy and following any increase in dosage.

Patients receiving opiate analgesics should be reevaluated continually for adequacy of pain control and for adverse effects, as well as for manifestations of opiate withdrawal and for the development of addiction, abuse, or misuse. During long-term therapy, the continued need for opiate analgesics should be continually reevaluated. Frequent communication among the prescriber, other members of the healthcare team, the patient, and the patient's caregiver or family is important during periods of changing analgesic requirements, including the initial dosage titration period.

Patients with chronic pain who experience episodes of breakthrough pain may require dosage adjustment or supplemental analgesia (i.e., ''rescue'' therapy with an immediate-release analgesic). If the level of pain increases after dosage stabilization, an attempt should be made to identify the source of increased pain before increasing the dosage.

For acute pain not related to trauma or surgery, the prescribed quantity should be limited to the amount needed for the expected duration of pain severe enough to require opiate analgesia (generally 3 days or less and rarely more than 7 days).

When opiate analgesics are used for the management of chronic noncancer pain, the US Centers for Disease Control and Prevention (CDC) recommends that primary care clinicians carefully reassess individual benefits and risks before prescribing dosages equivalent to 50 mg or more of morphine sulfate daily and avoid dosages equivalent to 90 mg or more of morphine sulfate daily or carefully justify their decision to titrate the dosage to such levels. Other experts recommend consulting a pain management specialist before exceeding a dosage equivalent to 80-120 mg of morphine sulfate daily.

If discontinuance of opiate therapy is required in a patient who may be physically dependent on opiates, the dosage should be tapered gradually to avoid manifestations of abrupt withdrawal. When tramadol therapy is discontinued in such patients, dosage generally can be reduced by 25-50% every 2-4 days. If manifestations of withdrawal occur, the dosage should be increased to the prior level and tapered more slowly (i.e., by increasing the interval between dosage reductions and/or reducing the amount of each incremental change in dose).

For further information on the management of opiate analgesic therapy, see Dosage and Administration: Dosage, in the Opiate Agonists General Statement 28:08.08.

Dosage of tramadol hydrochloride (as conventional tablets) should be reduced in certain patients with renal or hepatic impairment by decreasing the frequency of administration. Adults with creatinine clearances less than 30 mL/minute may receive oral tramadol hydrochloride conventional tablets in a dosage of 50-100 mg every 12 hours, not to exceed 200 mg daily. Since less than 7% of a dose of tramadol hydrochloride is removed by hemodialysis, patients undergoing dialysis may receive their usual dosage on the day of dialysis.

Adults with hepatic cirrhosis may receive the conventional tablets in a dosage of 50 mg every 12 hours.

Tramadol hydrochloride extended-release oral formulations should not be used in patients with severe renal impairment (creatinine clearances less than 30 mL/minute) or severe hepatic impairment (Child-Pugh class C). The available tablet or capsule strengths and once-daily dosing of these formulations do not provide sufficient dosing flexibility for safe use in these patients.

Adults with creatinine clearances of less than 30 mL/minute may receive tramadol hydrochloride in fixed combination with acetaminophen at a dosing interval of every 12 hours; in such patients, the dosage of tramadol hydrochloride administered as the fixed combination should not exceed 75 mg every 12 hours. Tramadol hydrochloride in fixed combination with acetaminophen should not be used in patients with impaired hepatic function.

Acetaminophen is relatively safe when used at recommended dosages. However, acetaminophen overdosage has been the leading cause of acute liver failure in the US, United Kingdom, and most of Europe, with about 50% of US cases in recent years resulting from inadvertent overdosage (e.g., in patients not recognizing the presence of the drug in multiple over-the-counter (OTC) and/or prescription products that they may be taking). Therefore, patients should be warned about the importance of determining whether acetaminophen is present in their medications (e.g., by examining labels carefully, by consulting their clinician and pharmacist) and of not exceeding recommended dosages or combining acetaminophen-containing preparations.

Acetaminophen should not be used for self-medication of pain for longer than 10 days (in adults or children 12 years of age and older) or 5 days (in children 2-11 years of age), unless directed by a clinician because pain of such intensity and duration may indicate a pathologic condition requiring medical evaluation and supervised treatment.

Acetaminophen should not be used in adults or children for self-medication of marked fever (greater than 39.5degreesC), fever persisting longer than 3 days, or recurrent fever, unless directed by a clinician because such fevers may indicate serious illness requiring prompt medical evaluation.

Acetaminophen should not be used in adults or children for self-medication of sore throat pain (pharyngitis, laryngitis, tonsillitis) for longer than 2 days.

To minimize the risk of overdosage, recommended age-appropriate daily dosages of acetaminophen should not be exceeded. Because severe liver toxicity and death have occurred in children who received multiple excessive doses of acetaminophen as part of therapeutic administration, parents or caregivers should be instructed to use weight-based dosing for acetaminophen, to use only the calibrated measuring device provided with the particular acetaminophen formulation for measuring dosage, to ensure that the correct number of tablets required for the intended dose is removed from the package, and not to exceed the recommended daily dosage because serious adverse effects could result. In addition, patients should be warned that the risk of overdosage and severe liver damage is increased if more than one preparation containing acetaminophen are used concomitantly.

Pharmacists have an important role in preventing acetaminophen-induced hepatotoxicity by advising consumers about the risk of failing to recognize that a wide variety of OTC and prescription preparations contain acetaminophen. Failure to recognize acetaminophen as an ingredient may be particularly likely with prescription drugs because the label of the dispensed drug may not clearly state its presence. Educating consumers about the risk of exceeding recommended acetaminophen dosages also is important.

The US Food and Drug Administration (FDA) recommends that pharmacists receiving prescriptions for fixed-combination preparations containing more than 325 mg of acetaminophen per dosage unit contact the prescriber to discuss use of a preparation containing no more than 325 mg of the drug per dosage unit. (See Preparations.)

Clinicians should exercise caution when prescribing, preparing, and administering IV acetaminophen to avoid dosing errors that could result in accidental overdosage and death. In particular, clinicians should ensure that the dose (in mg) and the volume (in mL) are not confused, the dose for patients weighing less than 50 kg is based on body weight, the infusion pump is programmed correctly, and the total daily dosage of acetaminophen from all sources does not exceed the maximum recommended daily dosage.

In patients with hepatic impairment or active liver disease, reduction of the total daily dosage of acetaminophen may be warranted. In patients with severe renal impairment (creatinine clearance of 30 mL/minute or less), longer dosing intervals and a reduced total daily dosage of acetaminophen may be warranted. (See Cautions: Precautions and Contraindications.)

Tramadol hydrochloride alone or in fixed combination with acetaminophen or celecoxib is administered orally. Since food does not affect substantially the rate or extent of absorption of tramadol hydrochloride administered alone as conventional tablets, the manufacturers state that conventional tablets of the drug can be taken without regard to food. Food may decrease the rate and extent of absorption of tramadol when the drug is administered as extended-release tablets (delaying peak plasma concentrations by about 3 hours and decreasing the extent of absorption by about 16%); the manufacturer states that although tramadol hydrochloride extended-release tablets may be administered once daily without regard to food, the extended-release tablets should be administered in a consistent manner relative to food intake.

The manufacturer also recommends that tramadol hydrochloride extended-release capsules be administered in a consistent manner relative to food intake, although the rate and extent of absorption are similar following oral administration with or without food. Food delays absorption of tramadol hydrochloride and acetaminophen administered in fixed combination, increasing times to peak plasma concentrations by about 35 and 60 minutes, respectively. However, food does not affect peak plasma concentrations achieved or the extent of absorption of the drugs, and the clinical importance of the delays in absorption is unknown.

The manufacturers make no specific recommendation regarding administration of the fixed-combination preparation with food. Tramadol hydrochloride extended-release tablets or capsules should be swallowed whole and should not be broken, crushed, chewed, split, or dissolved, since such physical alteration of the tablets or capsules could result in rapid release of the drug and absorption of a potentially fatal overdose. The extended-release preparations should not be used concomitantly with other tramadol-containing preparations.

For patients receiving tramadol hydrochloride conventional tablets alone for the relief of moderate to moderately severe pain and not requiring rapid onset of analgesic effect, the manufacturers recommend a dosage titration regimen to decrease the likelihood of discontinuance secondary to adverse effects (e.g., nausea, vomiting, dizziness, vertigo) associated with administration at higher initial dosages. Acetaminophen is administered orally, rectally as suppositories, and by IV infusion over 15 minutes. Acetaminophen preparations for self-medication should not be used unless seals on the tamper-resistant packaging are intact.

Dosing information for TRAMADOL HCL-ACETAMINOPHEN
DRUG LABEL	DOSING TYPE	DOSING INSTRUCTIONS
TRAMADOL-ACETAMINOPHN 37.5-325	Maintenance	Adults take 2 tablets by oral route every 4-6 hours as needed, for up to 5 days; do not exceed 8 tablets in 24hrs

Generic dosing information for TRAMADOL HCL-ACETAMINOPHEN
DRUG LABEL	DOSING TYPE	DOSING INSTRUCTIONS
TRAMADOL-ACETAMINOPHN 37.5-325	Maintenance	Adults take 2 tablets by oral route every 4-6 hours as needed, for up to 5 days; do not exceed 8 tablets in 24hrs

The following drug interaction information is available for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen):

Contraindicated
Severe
Moderate

There are 4 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
Opioid Antagonists/Opioid Analgesics 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: Naltrexone, nalmefene, and samidorphan are opioid antagonists and thus inhibit the effects of opioid analgesics.(1-3) CLINICAL EFFECTS: Concurrent administration or the administration of naltrexone within 7-10 days of opioids may induce acute abstinence syndrome or exacerbate a pre-existing subclinical abstinence syndrome.(1,4) Patients taking naltrexone may not experience beneficial effects of opioid-containing medications.(4) Samidorphan can precipitate opioid withdrawal in patients who are dependent on opioids. In patients who use opioids, delay initiation of samidorphan for a minimum of 7 days after last use of short-acting opioids and 14 days after last use of long-acting opioids.(3) Concurrent use of nalmefene tablets with opioid agonists may prevent the beneficial effects of the opioid.(2) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: The manufacturer of naltrexone states that the administration of naltrexone concurrently with opioids or to patients dependent on opioids is contraindicated.(1,4) Patients previously dependent on short-acting opioids should be opioid-free for a minimum of seven to ten days before beginning naltrexone therapy. Patients previously on buprenorphine or methadone may be vulnerable to withdrawal symptoms for as long as 2 weeks.(1,4) The manufacturer of naltrexone states that the naloxone challenge test, described in the naltrexone prescribing information, can be administered to determine if patients are opioid free.(1) The manufacturer of samidorphan states the concurrent use of samidorphan in patients using opioids or undergoing acute opioid withdrawal is contraindicated. Prior to initiating samidorphan, there should be at least a 7-day opioid free interval from the last use of short-acting opioids, and at least a 14-day opioid free interval from the last use of long-acting opioids.(3) The UK manufacturer of nalmefene tablets (for reduction of alcohol consumption) states the concurrent use of opioid analgesics is contraindicated.(2) Suspend the use of nalmefene tablets for 7 days prior to the anticipated use of opioids (e.g., elective surgery).(2) DISCUSSION: A double-blind, randomized, placebo-control study evaluated pain relief and side effects of 35 opioid-naive patients undergoing cesarean section. All patients received spinal anesthesia (bupivacaine and morphine) and were randomized to also receive placebo, naltrexone 3 mg, or naltrexone 6 mg. Patients treated with naltrexone experienced shorter duration of pain relief (not statistically significant), however incidence of opioid-induced side effects was reduced. Patients in the naltrexone 6 mg group had lower rates of pruritus, vomiting, and somnolence (all statistically significant) compared to the placebo group.(5) In a double-blind, randomized, placebo-control trial ten recreational opioid users were studied to determine the effects of hydromorphone (4 mg and 16 mg), tramadol (87.5 mg, 175 mg, and 350 mg), and placebo after pretreatment with naltrexone (50 mg) or placebo. Results show that lower doses of hydromorphone and tramadol acted similar to placebo. Hydromorphone 16 mg alone caused euphoria and miosis which were blocked by naltrexone. Tramadol 350 mg produced a lower magnitude of euphoria and miosis compared to hydromorphone. Naltrexone partially diminished the euphoria caused by tramadol, while it enhanced some of the unpleasant monoaminergic effects (flushing, malaise, vomiting).(6) A case report describes a 28 year-old ex-heroin addict who was stable on methadone 100 mg daily and simultaneously stopped using heroin and began drinking alcohol. He was admitted to the hospital for alcohol detoxification and, by mistake, was given naltrexone 100 mg instead of methadone 100 mg. The patient experienced withdrawal symptoms including chills, agitation, muscle and abdominal pain, generalized piloerection, and dilated pupils. Treatment of withdrawal was titrated to treat symptoms and required administration 78 mg of parenteral hydromorphone, after which the patient experienced relief for the following six hours.(8) Intentional administration of an opioid antagonist, naloxone, with opioid analgesics has been performed with close monitoring to lower required opioid dose by inducing withdrawal. Three case reports describe patients who had improved pain relief on significantly reduced doses of opioid analgesics.(8) In a double-blind controlled trial, 267 trauma patients were randomized to receive 0.05 mg/kg intravenous morphine either alone or in combination with 5 mg naltrexone oral suspension. Evaluated endpoints include reduction of pain and incidence of side effects. Results indicate that ultra-low dose naltrexone does not alter opioid requirements for pain control, but does lower incidence of nausea [2 (1.16%) vs 16 (11.6%), p<0.001].(9)	CONTRAVE, LOTREXONE, LYBALVI, NALTREX, NALTREXONE BASE MONOHYDRATE, NALTREXONE HCL, NALTREXONE HCL DIHYDRATE, NALTREXONE HCL MICRONIZED, OPVEE, VIVITROL
Tramadol/MAOIs 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: Tramadol and MAO inhibitors (MAOIs) may lower the seizure threshold.(1-3) Both tramadol and MAOIs may increase serotonin and norepinephrine. Tramadol inhibits neuronal reuptake of serotonin and norepinephrine, while MAOIs impair metabolism of serotonin and norepinephrine via inhibition of monoamine oxidase(MAO).(1-3) CLINICAL EFFECTS: Concurrent use of tramadol and an inhibitor of monoamine oxidase may result in seizures or serotonin syndrome.(1-3) Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(6) PREDISPOSING FACTORS: CYP2D6 poor metabolizers, or patients also taking strong CYP2D6 inhibitors (e.g. bupropion, fluoxetine, paroxetine, terbinafine) will inhibit tramadol metabolism leading higher systemic levels of tramadol. Risk of seizures may be increased in patients with epilepsy, a history of seizures, head trauma, metabolic disorders, alcohol or drug withdrawal, or infections of the central nervous system.(3) The risk of seizure may also be increased in patients receiving more than the upper daily dose limit of tramadol or in patients taking other medications that lower seizure threshold.(1-2) PATIENT MANAGEMENT: The Australian manufacturers of tramadol state that it is contraindicated in patients who are currently receiving monoamine oxidase inhibitors or who have received them in the previous 14 days.(1,2) The US manufacturer of tramadol states that tramadol should be used with caution in patients taking monoamine oxidase inhibitors and in patients receiving antidepressants.(3) DISCUSSION: The use of tramadol in patients taking monoamine oxidase inhibitors may increase the risk of seizures, serotonin syndrome, and suicide.(3) Methylene blue, when administered intravenously, has been shown to reach sufficient concentrations to be a potent inhibitor of MAO-A.(4,5) Metaxalone is a weak inhibitor of MAO.(7,8) One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	FURAZOLIDONE, MARPLAN, MATULANE, METHYLENE BLUE, NARDIL, PARNATE, PHENELZINE SULFATE, PROCARBAZINE HCL, PROVAYBLUE, TRANYLCYPROMINE SULFATE, XADAGO
Propoxyphene; Tramadol/Rasagiline; Selegiline 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: Tramadol and propoxyphene inhibit neural reuptake of serotonin. MAOIs may increase neuronal serotonin concentrations via inhibition of MAO-A. CLINICAL EFFECTS: The concurrent use of some opioids with MAOIs has resulted in serotonin syndrome. Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity. PREDISPOSING FACTORS: High doses or concurrent use of multiple drugs which increase CNS serotonin levels may increase risk for serotonin syndrome. PATIENT MANAGEMENT: The US manufacturers of both rasagiline and selegiline state that use of propoxyphene or tramadol is contraindicated during therapy with and within 14 days of discontinuation of rasagiline or selegiline due to the risk for serotonin syndrome. DISCUSSION: The US manufacturer of rasagiline reports a case of serotonin syndrome in a patient treated with both tramadol (dose not stated) and rasagiline 4 mg daily, and also warns that cases of serotonin syndrome have been reported with concomitant use of meperidine, methadone, or propoxyphene. The interaction between meperidine and MAOIs has been well documented. There are two reports of potential interactions between MAOIs and dextromethorphan. There is one case report of serotonin syndrome with concurrent meperidine and linezolid. One or more of the drug pairs linked to this monograph have been included in a list of interactions that should be considered "high-priority" for inclusion and should not be inactivated in EHR systems. This DDI subset was vetted by an expert panel commissioned by the U.S. Office of the National Coordinator (ONC) for Health Information Technology.	AZILECT, EMSAM, RASAGILINE MESYLATE, SELEGILINE HCL, ZELAPAR
Slt Serotonergic Opioids (Immediate Release)/Metaxalone 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: Concurrent use of serotonergic opioids and metaxalone, a weak monoamine oxidase (MAO) inhibitor, may result in additive CNS depression and additive serotonergic effects.(1,2) CLINICAL EFFECTS: Concurrent use of opioids and metaxalone may result in profound sedation, respiratory depression, coma, and/or death.(2) The concurrent use of some opioids with serotonergic properties with metaxalone may result in serotonin syndrome. Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(2) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. Treatment with multiple medications which increase serotonin levels or inhibit the metabolism of serotonin are risk factors for serotonin syndrome. Higher opioid concentrations, as may occur due to inhibition of opioid clearance, patient specific genomic factors (e.g. poor metabolizer status for a P450 enzyme), or high opioid dosage may increase the risk for an interaction. PATIENT MANAGEMENT: Use an alternative analgesic when possible. If concurrent therapy is unavoidable, patients should be monitored for signs and symptoms of serotonin syndrome. Instruct patients to report muscle twitching, tremors, shivering and stiffness, fever, heavy sweating, heart palpitations, restlessness, confusion, agitation, trouble with coordination, or severe diarrhea. If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(2) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(3) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(2) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(4) DISCUSSION: Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(5) A retrospective cohort study compared the risk of opioid overdose associated with concomitant use of opioids and skeletal muscle relaxants versus opioid use alone. The study examined two types of opioid users (naive opioid use and prevalent opioid use) with and without exposure to skeletal muscle relaxants. The adjusted hazard ratios (HR) were 1.09 and 1.26 in the naive and prevalent opioid user cohorts, respectively, generating a combined estimate of 1.21. The risk increased with treatment duration (less than or equal to 14 days: 0.91; 15-60 days: 1.37; and greater than 60 days: 1.80) and for the use of baclofen and carisoprodol (HR 1.83 and 1.84, respectively). Elevated risk was associated with concomitant users with daily opioid dose greater than 50 mg and benzodiazepine use (HR 1.50 and 1.39, respectively).(6) From 2004 to 2011, the rate of nonmedical use-related emergency room visits involving both opioids and benzodiazepines increased from 11 to 34.2 per 100,000 and drug overdose deaths involving both opioids and benzodiazepines increased from 0.6 to 1.7 per 100,000. The proportion of prescription opioid analgesic deaths which also involved benzodiazepines increased from 18% to 31% during this time.(7) A prospective observational cohort study in North Carolina found that the rates of overdose death among patients co-dispensed opioid analgesics and benzodiazepines were 10 times higher than patients receiving opioid analgesics alone.(8) A case-cohort study of VA data from 2004-2009 found that the risk of death from overdose increased with concomitant opioid analgesics and benzodiazepines. Compared to patients with no history of benzodiazepines, patients with a history of benzodiazepine use (hazard ratio [HR] = 2.33) and patients with a current benzodiazepine prescription (HR=3.86) had an increased risk of fatal overdose.(9) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(10) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(11) Although documentation is lacking for some opioids, the FDA recommends health professionals monitor and advise patients to report symptoms of serotonin syndrome in patients receiving analgesic opioids and serotonergic agents.(12) The interaction between meperidine and MAOIs has been well documented. There are two reports of potential interactions between MAOIs and dextromethorphan.(13,14) In another case report, the concurrent use of propoxyphene and phenylzine resulted in sedation and somnolence. The patient had previously taken both agents alone with no adverse effects.(15) Although some studies have shown that morphine does not interact with MAOIs,(16,17) other data indicates that MAOIs markedly potentiate the effect of morphine.(18) Metaxalone is a weak inhibitor of MAO.(1,19)	METAXALONE

There are 8 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
Sodium Oxybate/Codeine; Tramadol SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Oxybate by itself may be associated with severe somnolence or respiratory depression. Concurrent use with other CNS depressants may further increase the risk for respiratory depression or loss of consciousness.(1-3) Codeine and tramadol are converted to their more active opioid metabolites (morphine and O-desmethyltramadol respectively) by CYP2D6. CLINICAL EFFECTS: Concurrent use of sodium oxybate and opioids such as tramadol, or alcohol may further increase the risk for respiratory depression and profound sedation, syncope or coma.(1,2) Fatalities have been reported.(3) PREDISPOSING FACTORS: Based upon FDA evaluation of deaths in patients taking sodium oxybate, risk factors may include: use of multiple drugs which depress the CNS, more rapid than recommended oxybate dose titration, exceeding the maximum recommended oxybate dose, and prescribing for unapproved uses such as fibromyalgia, insomnia or migraine. Note that in oxybate clinical trials for narcolepsy 78% - 85% of patients were also receiving concomitant CNS stimulants.(1-3) In patients receiving codeine or tramadol, ultrarapid metabolizers of CYP2D6 are more likely to have higher than normal systemic concentrations of the active opioid.(4) Other patients at high risk from this interaction include: adolescents between 12 and 18 years who are obese or have conditions such as obstructive sleep apnea or severe lung disease, which may increase the risk of respiratory depression; and breastfeeding women (due to the risk of serious adverse reactions in breastfed infants).(5) PATIENT MANAGEMENT: Avoid use of oxybate when concomitant opioids, benzodiazepines, sedating antidepressants, sedating antipsychotics, general anesthetics, or muscle relaxants, particularly when predisposing risk factors are present. If combination use is required, dose reduction or discontinuation of one or more CNS depressants should be considered. If short term use of an opioid or general anesthetic is required, consider interruption of sodium oxybate treatment.(1,2) Codeine and tramadol are converted to their active opioid metabolites by CYP2D6. Ultrarapid metabolizers of CYP2D6 more rapidly convert codeine or tramadol to their active metabolites (morphine and o-desmethyltramadol respectively) and so are more likely to have higher than normal systemic concentrations of the active opioid. Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(6) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(7) DISCUSSION: The FDA evaluated sodium oxybate postmarket fatal adverse event reports from the FDA Adverse Event Reporting System(AERS) and from the manufacturer. Although report documentation was not always optimal or complete, useful information was obtained. Factors which may have contributed to fatal outcome: concomitant use of one or more drugs which depress the CNS, more rapid than recommended oxybate dose titration, exceeding the maximum recommended oxybate dose, and prescribing for unapproved uses such as fibromyalgia, insomnia or migraine. FDA reported the case of a 5-year-old patient who received one dose of tramadol following a tonsillectomy and experienced slow, difficult breathing requiring emergency intervention and hospitalization. The child was subsequently found to be an ultrarapid metabolizer of CYP2D6.(4) Many deaths occurred in patients with serious psychiatric disorders such as depression and substance abuse. Other concomitant diseases may have also contributed to respiratory and CNS depressant effects of oxybate.(3)	LUMRYZ, LUMRYZ STARTER PACK, SODIUM OXYBATE, XYREM, XYWAV
Tramadol/Linezolid SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Tramadol and linezolid may lower the seizure threshold.(1-3) Both tramadol and linezolid may increase serotonin and norepinephrine. Tramadol inhibits neuronal reuptake of serotonin and norepinephrine, while linezolid impairs metabolism of serotonin and norepinephrine via inhibition of monoamine oxidase(MAO).(1-3) CLINICAL EFFECTS: Concurrent use of tramadol and linezolid may result in seizures or serotonin syndrome.(1-3) Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(4) PREDISPOSING FACTORS: CYP2D6 poor metabolizers,(5) or patients also taking strong CYP2D6 inhibitors (e.g. bupropion, fluoxetine, paroxetine, terbinafine) will have reduced tramadol metabolism leading higher systemic levels of tramadol. Risk of seizures may be increased in patients with epilepsy, a history of seizures, head trauma, metabolic disorders, alcohol or drug withdrawal, or infections of the central nervous system.(1) The risk for seizures may also be increased in patients receiving more than the upper daily dose limit of tramadol, or in patients taking additional medications which lower the seizure threshold.(1) PATIENT MANAGEMENT: Evaluate the patient for predisposing factors (other drugs, diseases or conditions) which may further increase the risk for serotonin syndrome or seizures. When possible and clinically appropriate, change to an alternative analgesic or antibiotic, particularly when predisposing factors are present. If concomitant therapy is necessary, monitor patient for signs of serotonin toxicity (e.g. tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, muscle rigidity) or seizures, especially after tramadol dose increases. Manufacturer prescribing recommendations: The US manufacturer of tramadol states that tramadol should be used with caution in patients taking monoamine oxidase inhibitors.(1) In contrast, an Australian manufacturer of tramadol states that it is contraindicated in patients who are currently receiving monoamine oxidase inhibitors or who have received them in the previous 14 days.(2) The US manufacturer of linezolid does not have specific recommendations regarding concurrent treatment with tramadol but does state that linezolid should not be used in patients receiving serotonergic drugs (e.g. SSRIs, TCAs, meperidine) unless clinically appropriate and patients are carefully observed for signs and symptoms of serotonin syndrome.(3) DISCUSSION: Tramadol and its M1 metabolite are pharmacologically active. Tramadol inhibits the reuptake of norepinephrine and serotonin with minimal opioid receptor binding. The active M1 metabolite has 200 times greater binding affinity for the mu-opioid receptor than tramadol and is 6 times more potent in producing analgesia.(1) CYP P-450-2D6 converts tramadol to M1.(1,5) A study in surgery patients included 2D6 EM patients who received concomitant treatment with tramadol and 2D6 inhibitors. Levels of the M1 metabolite were decreased by 80-90% compared with EM patients not taking 2D6 inhibitors. Authors noted some EM patients were converted to the PM phenotype.(6)	LINEZOLID, LINEZOLID-0.9% NACL, LINEZOLID-D5W, ZYVOX
Iobenguane I 123/Agents that Affect Catecholamines SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Many compounds that reduce catecholamine uptake or that deplete catecholamine stores may interfere with iobenguane uptake into cells.(1) CLINICAL EFFECTS: Compounds that reduce catecholamine uptake or that deplete catecholamine stores may interfere with imaging completed with iobenguane.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Discuss the use of agents that affect catecholamines. Discontinue drugs that reduce catecholamine uptake or deplete catecholamine stores prior to imaging with iobenguane. Before imaging with iobenguane, discontinue agents that affect catecholamines for at least 5 biological half-lives, as clinically tolerated.(1) DISCUSSION: Many agents may reduce catecholamine uptake or deplete catecholamine stores.(1) Examples include: - CNS stimulants or amphetamines (e.g. cocaine, methylphenidate, dextroamphetamine) - norepinephrine and dopamine reuptake inhibitors (e.g. phentermine) - norepinephrine and serotonin reuptake inhibitors (e.g. tramadol) - monoamine oxidase inhibitors (e.g. phenelzine, linezolid) - central monoamine depleting drugs (e.g. reserpine) - non-select beta adrenergic blocking drugs (e.g. labetalol) - alpha agonists or alpha/beta agonists (e.g. pseudoephedrine, phenylephrine, ephedrine, phenylpropanolamine, naphazoline) - tricyclic antidepressants or norepinephrine reuptake inhibitors (e.g. amitriptyline, bupropion, duloxetine, mirtazapine, venlafaxine) - botanicals that may inhibit reuptake of norepinephrine, serotonin or dopamine (e.g. ephedra, ma huang, St. John's Wort, yohimbine)	ADREVIEW
Tramadol/Meperidine SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: The concurrent administration of tramadol(1) with meperidine(2) may result in additive blockade of serotonin reuptake, leading to central serotonergic hyperstimulation, as well as additive sedation, respiratory depression, coma, and/or death. CLINICAL EFFECTS: Concurrent administration may increase the risk for adverse events, including serotonin syndrome, sedation, and respiratory depression. Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(3) PREDISPOSING FACTORS: Patients who are CYP2D6 ultrarapid metabolizers have accelerated conversion of tramadol to its active metabolite, M1, and may be at higher risk of sedation and respiratory depression.(1) Treatment with multiple medications which increase serotonin levels or with medications which inhibit the metabolism of serotonin increasing drugs are risk factors for serotonin syndrome.(3) A genetic defect in CYP2D6 leading to the slow metabolizer phenotype may increase the risk for serotonin syndrome due to tramadol. Renal dysfunction and chronic use of meperidine would be expected to increase the risk for serotonin toxicity due to meperidine. PATIENT MANAGEMENT: Use an alternative to meperidine whenever possible, particularly in patients with renal impairment. If concurrent therapy of tramadol with meperidine is warranted, patients should be closely monitored for signs and symptoms of sedation, respiratory depression and serotonin syndrome. One or both agents may need to be discontinued. Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression. Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(2) DISCUSSION: There are a number of serotonin syndrome case reports following the addition of tramadol to a stable selective serotonin reuptake inhibitor regimen. The syndrome developed between 12 hours to 3 weeks after the initiation of tramadol therapy. Patients recovered after tramadol and/or the SSRI/SNRI was discontinued.(4-16) One patient also developed mania.(4) Another patient developed nightmares and hallucinations after taking concurrent tramadol and paroxetine for 56 days.(5) One author suggests that although the combination of tramadol and SSRIs or SNRIs is associated with a risk for serotonin syndrome, given the high rate of co-prescribing for the combination it is an uncommon outcome.(17) Case reports describe the interaction between meperidine and serotonin-increasing agents.(18-20) Although there are no reports of serotonin syndrome specifically with the combination of tramadol and meperidine, both drugs inhibit serotonin reuptake and caution is still warranted.	DEMEROL, MEPERIDINE HCL, MEPERIDINE HCL-0.9% NACL
Eluxadoline/Anticholinergics; Opioids SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Eluxadoline is a mixed mu-opioid and kappa-opioid agonist and delta-opioid antagonist and may alter or slow down gastrointestinal transit.(1) CLINICAL EFFECTS: Constipation related adverse events that sometimes required hospitalization have been reported, including the development of intestinal obstruction, intestinal perforation, and fecal impaction.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Avoid use with other drugs that may cause constipation. If concurrent use is necessary, evaluate the patient's bowel function regularly. Monitor for symptoms of constipation and GI hypomotility, including having bowel movements less than three times weekly or less than usual, difficulty having a bowel movement or passing gas, nausea, vomiting, and abdominal pain or distention.(1) Instruct patients to stop eluxadoline and immediately contact their healthcare provider if they experience severe constipation. Loperamide may be used occasionally for acute management of severe diarrhea, but must be discontinued if constipation develops.(1) DISCUSSION: In phase 3 clinical trials, constipation was the most commonly reported adverse reaction (8%). Approximately 50% of constipation events occurred within the first 2 weeks of treatment while the majority occurred within the first 3 months of therapy. Rates of severe constipation were less than 1% in patients receiving eluxadoline doses of 75 mg and 100 mg.(1)	VIBERZI
Tramadol/Tricyclic Compounds; Carbamazepine SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Tramadol and tricyclic compounds may lower the seizure threshold.(1) Tramadol inhibits the reuptake of serotonin and norepinephrine but has weak opioid effects. M1, tramadol's active metabolite, is a stronger opioid and up to 6 times more potent than tramadol in producing analgesia.(1) Carbamazepine induces the metabolism of this tramadol opioid metabolite. CLINICAL EFFECTS: Concurrent use of tramadol and a tricyclic compound may result in seizures or serotonin syndrome and may increase the risk of suicide.(1) Concurrent use of tramadol and carbamazepine may significantly reduce the analgesic effect of tramadol.(1) Although not used therapeutically as an antidepressant, carbamazepine is a tricyclic compound. PREDISPOSING FACTORS: Risk of seizures may be increased in patients with epilepsy, a history of seizures, head trauma, metabolic disorders, alcohol or drug withdrawal, or infections of the central nervous system.(1) PATIENT MANAGEMENT: Tramadol should be used with caution in patients taking tricyclic compounds.(1) The use of tramadol and carbamazepine is not recommended.(1) Carbamazepine induces metabolism (glucuronidation) of the tramadol opioid metabolite (M1). In patients on long-term carbamazepine when tramadol is started, achieving adequate analgesia may be difficult. Prescribing higher tramadol doses would be associated with higher parent drug levels which may result in serotonin and norepinephrine associated adverse effects. In patients receiving chronic tramadol treatment when carbamazepine is started, anticipate a reduction in analgesic effects. The maximal effects of carbamazepine on tramadol efficacy may not be seen for 2 or more weeks. Monitor for decreased tramadol efficacy, including symptoms of opioid withdrawal, after carbamazepine is initiated or when carbamazepine dosage is increased. If carbamazepine is to be discontinued in patients stabilized on the combination of tramadol and carbamazepine, gradually decrease the carbamazepine dose to decrease the risk of withdrawal seizures. As carbamazepine induction wanes, systemic tramadol metabolite concentrations will rise. The tramadol dose may need to be decreased to prevent tramadol toxicity. DISCUSSION: The use of tramadol in patients treated with tricyclic compounds may increase the risk of seizures.(1) A review of 124 reports of seizures following tramadol therapy received by the FDA through July 31, 1996 revealed that 23% of the patients were also taking tricyclic antidepressants.(2) Therefore, the manufacturer of tramadol states that tramadol should be used with caution in patients treated with tricyclic compounds.(1) The manufacturer of tramadol also states that the use of tramadol with carbamazepine is not recommended.(1) In a case report, a 79 year-old female developed serotonin syndrome three days after the addition of tramadol to amitriptyline therapy. Over the next four days, her condition deteriorated and she died.(3)	AMITRIPTYLINE HCL, AMOXAPINE, ANAFRANIL, CARBAMAZEPINE, CARBAMAZEPINE ER, CARBATROL, CHLORDIAZEPOXIDE-AMITRIPTYLINE, CLOMIPRAMINE HCL, DESIPRAMINE HCL, DOXEPIN HCL, EPITOL, EQUETRO, IMIPRAMINE HCL, IMIPRAMINE PAMOATE, NORPRAMIN, NORTRIPTYLINE HCL, PAMELOR, PERPHENAZINE-AMITRIPTYLINE, PROTRIPTYLINE HCL, SILENOR, TEGRETOL, TEGRETOL XR, TRIMIPRAMINE MALEATE
Tramadol/Cyclobenzaprine SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Tramadol and cyclobenzaprine, a tricyclic compound, both may lower the seizure threshold, have additive effects on serotonin levels,(1) and cause additive CNS depression.(3) CLINICAL EFFECTS: Concurrent use of tramadol and cyclobenzaprine may result in increased risk of seizures, serotonin syndrome, suicide,(1) profound sedation, respiratory depression, coma, and/or death.(3) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. Risk of seizures may be increased in patients with epilepsy, a history of seizures, head trauma, metabolic disorders, alcohol or drug withdrawal, or infections of the central nervous system.(1) PATIENT MANAGEMENT: Tramadol should be used with caution in patients taking tricyclic compounds, including cyclobenzaprine. Monitor patients closely for serotonin syndrome.(1) Limit prescribing opioid analgesics with CNS depressants such as cyclobenzaprine to patients for whom alternatives are inadequate.(3) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(3) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(4) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(3) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(5) DISCUSSION: The use of tramadol in patients treated with tricyclic compounds may increase the risk of seizures.(1) A review of 124 reports of seizures following tramadol therapy received by the FDA through July 31, 1996 revealed that 23% of the patients were also taking tricyclic antidepressants.(2) Therefore, the manufacturer of tramadol states that tramadol should be used with caution in patients treated with tricyclic compounds.(1) Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(6) A retrospective cohort study compared the risk of opioid overdose associated with concomitant use of opioids and skeletal muscle relaxants versus opioid use alone. The study examined two types of opioid users (naive opioid use and prevalent opioid use) with and without exposure to skeletal muscle relaxants. The adjusted hazard ratios (HR) were 1.09 and 1.26 in the naive and prevalent opioid user cohorts, respectively, generating a combined estimate of 1.21. The risk increased with treatment duration (less than or equal to 14 days: 0.91; 15-60 days: 1.37; and greater than 60 days: 1.80) and for the use of baclofen and carisoprodol (HR 1.83 and 1.84, respectively). Elevated risk was associated with concomitant users with daily opioid dose greater than 50 mg and benzodiazepine use (HR 1.50 and 1.39, respectively).(7) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(8) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(9)	AMRIX, CYCLOBENZAPRINE HCL, CYCLOBENZAPRINE HCL ER, CYCLOPAK, CYCLOTENS, FEXMID
Alprostadil/Acetaminophen; NSAIDs SEVERITY LEVEL: 2-Severe Interaction: Action is required to reduce the risk of severe adverse interaction. MECHANISM OF ACTION: Alprostadil is a prostaglandin E1 product used to maintain patency of a patent ductus arteriosus (PDA).(1) Acetaminophen and nonsteroidal anti-inflammatory (NSAID) agents inhibit prostaglandins and may be used for PDA closure in addition to pain/fever management.(2-4) CLINICAL EFFECTS: Simultaneous administration of acetaminophen or NSAIDs may result in decreased clinical effects from alprostadil, including reduction in PDA.(1) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Avoid concurrent administration of acetaminophen or NSAIDs in patients on alprostadil for maintaining patency of a patent ductus arteriosus (PDA).(1) DISCUSSION: NSAIDs and acetaminophen are used as management for patent ductus arteriosus (PDA) closure.(2-4) Alprostadil is used to maintain patency of a PDA.(1) In a case report, a 37-week gestational age neonate with cardiac defects required alprostadil therapy for PDA patency. After multiple doses of acetaminophen for pain, an echocardiogram showed reduction of the PDA requiring increased doses of alprostadil. Additional acetaminophen was discontinued. Follow up echocardiogram showed successful reversal of PDA reduction and alprostadil dose was reduced.(5)	ALPROSTADIL, PROSTAGLANDIN E1, PROSTIN VR PEDIATRIC

There are 24 moderate interactions. The clinician should assess the patient’s characteristics and take action as needed. Actions required for moderate interactions include, but are not limited to, discontinuing one or both agents, adjusting dosage, altering administration.

Drug Interaction	Drug Names
Selected Anticoagulants (Vitamin K antagonists)/Propoxyphene; Tramadol SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The exact mechanism is unknown. CLINICAL EFFECTS: Concurrent use of propoxyphene or tramadol may result in increased effects of some anticoagulants, including bleeding. 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: Patients maintained on warfarin who begin therapy with propoxyphene or tramadol containing medication should be monitored closely for signs of increased warfarin effects. The dosage of warfarin may need to be adjusted or a different opioid may need to be used. 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: There have been three case reports of patients developing hematuria following the addition of a combination product containing propoxyphene and acetaminophen.(1-2) In one of these reports, the patient took double the recommended dosage of the product in a four hour period.(1) In another case report, a patient noticed increased bleeding from facial shaving cuts and developed an increased prothrombin time after self-administering nearly twice the recommended dosage of a combination propoxyphene and acetaminophen product and an unknown quantity of ibuprofen over a three day period.(3) In another report, a patient developed an increased prothrombin time following the addition of a combination propoxyphene and acetaminophen product.(4) There have been three case reports of increased INR values following the addition of tramadol to warfarin-containing regimens.(5-7) A large systematic review was performed on 72 warfarin drug-drug interactions studies that reported on bleeding, thromboembolic events, or death. Most studies were retrospective cohorts. A meta-analysis of 4 of those studies found a higher rate of clinically significant bleeding in patients on warfarin and non-NSAID analgesics (OR=2.12; 95% CI 1.65-2.73). Increased bleeding risk was also seen in subgroup analyses with opioid analgesics (OR=2.81; 95% CI 1.89-4.17).(8) A retrospective review associated tramadol use with episodes of major bleeding in patients receiving phenprocoumon or acenocoumarol.(9) In contrast, a study in 19 patients receiving phenprocoumon found no effect on INR values following the addition of tramadol.(10) A self-controlled case study of 1,622 oral anticoagulant-precipitant drug pairs were reviewed and found 14% of drug pairs were associated with a statistically significant elevated risk of thromboembolism. Concurrent use of warfarin and propoxyphene resulted in a ratio of rate ratios (95% CI) of 1.38 (1.08-1.77).(11)	ANISINDIONE, JANTOVEN, WARFARIN SODIUM
Opioids/Buprenorphine; Pentazocine SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Buprenorphine is a partial agonist at mu-opiate receptors, exhibiting a ceiling effect at which higher doses produce no further effect. Pentazocine is a mixed agonist-antagonist at opiate receptors.(1) Full mu-opioid agonists (e.g., morphine, methadone) continue to have increased effects at higher doses without ceiling effects.(2) CLINICAL EFFECTS: Concurrent use of buprenorphine or pentazocine with other opioids in opioid dependent patients may result in withdrawal symptoms. Concurrent use in other patients may result in additive or decreased analgesia and decreased opioid side effects. PREDISPOSING FACTORS: Patients dependent on opioids or who take higher dosages of opioids may be more likely to experience withdrawal symptoms with concurrent use. PATIENT MANAGEMENT: Use buprenorphine and pentazocine with caution in patients maintained or dependent on other opioids and monitor for signs of withdrawal. In other patients, also monitor for changes in analgesic effects. The manufacturer of Sublocade states buprenorphine may precipitate opioid withdrawal in patients who are currently physically dependent on full opioid agonists. The risk of withdrawal may be increased if buprenorphine is given less than 6 hours after short-acting opioids (such as heroin, morphine) and less than 24 hours after long-acting opioids (such as methadone).(3) DISCUSSION: Concurrent use of buprenorphine with other opioids in opioid dependent patients could result in withdrawal symptoms. Concurrent use in other patients may result in additive or decreased analgesia, decreased opioid side effects, and/or renarcotization.(2) In clinical trials, administration of buprenorphine injection produced withdrawal symptoms in patients maintained on methadone (30 mg daily) when administered 2 hours post-methadone,(4) but not when administered 20 hours post-methadone.(5) In another study, sublingual buprenorphine produced withdrawal symptoms in patients maintained on methadone. Symptoms were more pronounced in patients maintained on 60 mg daily doses than in patients maintained on 30 mg daily doses.(6) In a study of 10 patients maintained on methadone (100 mg daily), only three were able to tolerate escalating sublingual doses of buprenorphine/naloxone up to 32/8 mg. Split doses produced less withdrawal symptoms than full doses.(7) In a case report, a heroin-user maintained in a buprenorphine-maintenance program began stockpiling his buprenorphine instead of ingesting it and began using heroin. He then decided to re-initiate treatment on his own and ingested between 80 and 88 mg of buprenorphine over a two day period and experienced extreme withdrawal symptoms, despite restarting heroin during these symptoms. Methadone relieved his withdrawal symptoms.(8)	BELBUCA, BRIXADI, BUPRENORPHINE, BUPRENORPHINE HCL, BUPRENORPHINE-NALOXONE, BUTRANS, PENTAZOCINE-NALOXONE HCL, SUBLOCADE, SUBOXONE, ZUBSOLV
Acetaminophen/Isoniazid SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Isoniazid may induce the metabolism of acetaminophen to its toxic N-acetyl-p-benzoquinone imine (NAPQI) metabolite by CYP2E1.(1) CLINICAL EFFECTS: Concurrent isoniazid and acetaminophen may result in hepatotoxicity.(1) Symptoms can include nausea, vomiting, jaundice, dark urine, abdominal pain, and unexplained fatigue. PREDISPOSING FACTORS: The interaction may be more severe in fast acetylators. PATIENT MANAGEMENT: Concurrent use of acetaminophen in patients treated with isoniazid should be approached with caution. Consider an alternative analgesic agent. If concurrent therapy is warranted, advise patients not to exceed the maximum recommended daily dose of acetaminophen and to immediately report any symptoms of hepatotoxicity. DISCUSSION: Isoniazid has been shown to induce, after initially inhibiting, the metabolism of acetaminophen to N-acetyl-p-benzoquinone imine (NAPQI), which is hepatotoxicity. Normally, NAPQI is rapidly converted to non-toxic metabolites by glutathione; however, high levels of NAPQI can overwhelm this system.(2-4) In a case report, a patient receiving isoniazid developed severe acetaminophen toxicity following a suicide attempt, despite only having ingested a maximum of 11.5 grams of acetaminophen and having a blood acetaminophen level of 15 mmol/L 13 hours later. Toxicity is usually seen with levels greater than 26 mmol/L.(5) In a retrospective review of 20 deaths in patients taking isoniazid alone or with ethambutol during a 13 year period, two deaths involved patients receiving concurrent isoniazid and acetaminophen.(6,7)	ISONIAZID
Selected Anticoagulants/Acetaminophen SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Acetaminophen may reduce levels of functional Factor VI, thereby increasing the International Normalized Ratio (INR).(1) In one trial factors II and VII levels were also reduced, thereby increasing the INR. (2) CLINICAL EFFECTS: Concurrent use of routine acetaminophen, especially at dosages greater than 2 grams/day, and coumarin anticoagulants may result in elevated anticoagulant effects. PREDISPOSING FACTORS: Routine use of acetaminophen at dosages greater than 2 grams/day may increase the risk of the interaction. PATIENT MANAGEMENT: Patients receiving routine acetaminophen at dosages greater than 2 grams/day with coumarin anticoagulants should be closely monitored for changes in anticoagulant effects. The dosage of the anticoagulant may need to be adjusted. Patients receiving coumarin anticoagulants should be counseled on the use of acetaminophen. DISCUSSION: A large systematic review was performed on 72 warfarin drug-drug interactions studies that reported on bleeding, thromboembolic events, or death. Most studies were retrospective cohorts. A meta-analysis of 4 of those studies found a higher rate of clinically significant bleeding in patients on warfarin and non-NSAID analgesics (OR=2.12; 95% CI 1.65-2.73). Increased bleeding risk was also seen in subgroup analyses with acetaminophen (OR=2.32; 95% CI 1.22-4.44).(3) In a study in 11 patients maintained on warfarin, use of acetaminophen (4 grams daily for 14 days) increased INR values by an average of 1.04.(4) In a study in 36 patients maintained on warfarin, the addition of acetaminophen (2 grams/day or 4 grams/day) increased INR values.(5) In a study in 20 patients maintained on warfarin, the addition of acetaminophen (4 grams/day for 14 days) increased average INR values by 1.20 (from 2.6 to 3.45).(6) In a study, 12 patients maintained on various anticoagulants (anisindione, dicoumarol, phenprocoumon, and warfarin) who received 4 weeks of acetaminophen (2.6 grams/day) were compared to 50 subjects maintained on various anticoagulants who did not receive acetaminophen. By the third week of concurrent acetaminophen, prothrombin times increased from 23 seconds to 28.4 seconds. The average warfarin-equivalent dose decreased by 5.8 mg to 4.4 mg. In another phase, 50 subjects maintained on various anticoagulants received acetaminophen (2.6 grams/day for 14 days). The mean prothrombin increase was 3.6 seconds.(7) There have been case reports of increased INRs following concurrent acetaminophen in patients maintained on warfarin(8-11) and acenocoumarol.(12) In contrast to the above reports, other studies have found no effects on acenocoumarol,(14) phenprocoumon,(13-15) or warfarin(16,17) by acetaminophen. In a study in 45 patients maintained on warfarin, the addition of acetaminophen (2 or 3 grams/day for 10 days) increased average INR by 0.7 and 0.67 with 2 grams/day and 3 grams/day, respectively. This increase was apparent by day 3, and a decrease in factor II and VII was observed.(2) A self-controlled case study of 1,622 oral anticoagulant-precipitant drug pairs were reviewed and found 14% of drug pairs were associated with a statistically significant elevated risk of thromboembolism. Concurrent use of warfarin and acetaminophen resulted in a ratio of rate ratios (95% CI) of 1.28 (1.18-1.38).(18) 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.	DICUMAROL, JANTOVEN, WARFARIN SODIUM
Tramadol/5-HT3 Antagonists SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The interaction may involve a reduction in the binding involving 5-HT3 receptors.(1) CLINICAL EFFECTS: Concurrent use of 5-HT3 antagonists may decrease the effectiveness of tramadol, resulting in increased use of tramadol.(1-3) 5-HT3 antagonists may not be effective in reducing tramadol-induced nausea.(4) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Consider the use of alternative anti-emetics in patients receiving tramadol, or the use of other opioids in patients receiving 5-HT3 antagonists. DISCUSSION: In a randomized study in 59 post-surgical patients in recovery, compared to tramadol alone, patients receiving concurrent ondansetron required significantly larger doses of tramadol at four hours (223 mg versus 71 mg), at 8 hours (285 mg versus 128 mg), and at 12 hours (406 mg versus 190 mg). Vomiting rates at 4 hours and 8 hours were significantly higher with tramadol and concurrent ondansetron compared to tramadol alone.(1) In a randomized, double-blind study in 40 surgical patients undergoing lumbar laminectomy, compared to tramadol alone, cumulative tramadol consumption with concurrent ondansetron during the first 24 hours was significantly increased (between 26% and 35%) as well as thereafter (22% to 25%).(2) In another randomized study in 120 post-surgical patients, it was discovered that tramadol consumption was increased in those patients receiving concurrent ondansetron compared to tramadol alone.(3) In a prospective, randomized, double-blinded study in dental patients, patients received one of four treatments: fentanyl and metoclopramide, tramadol and metoclopramide, fentanyl and ondansetron, or tramadol and ondansetron. The patients who received tramadol and ondansetron had the highest nausea scores among the treatment groups. There were no significant differences in the incidences of pain or nausea in the 24 hours following the procedure.(4) In a randomized, controlled trial in 40 surgical patients undergoing hernioplasty or thyroidectomy, compared to tramadol alone, cumulative tramadol consumption was higher at the 2-hour time point with concurrent ondansetron (0.24 +/- 0.1 vs. 0.17 +/- 0.16; p = 0.01).(5) A systematic review and meta-analysis of randomized controlled trials in the postoperative setting comparing tramadol alone and in combination with ondansetron were included. At 4-hours, 8-hours, 12-hours, and 24-hours post-procedure, patients had increased tramadol requirements when administered with concurrent ondansetron compared to tramadol alone.(6) 5-HT3 antagonists linked to this monograph include: alosetron, azasetron, dolasetron, granisetron, ondansetron, palonosetron, ramosetron, and tropisetron.	AKYNZEO, ALOSETRON HCL, GRANISETRON HCL, LOTRONEX, MKO (MIDAZOLAM-KETAMINE-ONDAN), ONDANSETRON HCL, ONDANSETRON HCL-0.9% NACL, ONDANSETRON ODT, PALONOSETRON HCL, POSFREA, SANCUSO, SUSTOL
Gabapentinoids/Opioids (IR & ER) SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Opioid-induced reduction in GI motility may increase the absorption of gabapentin and pregabalin.(1) Gabapentin and pregabalin may reverse opioid-induced tolerance of respiratory depression.(2) Concurrent use may result in profound sedation, respiratory depression, coma, and/or death.(3) CLINICAL EFFECTS: Concurrent use of opioids may result in elevated levels of and toxicity from gabapentin and pregabalin, including profound sedation, respiratory depression, coma, and/or death.(1-7) PREDISPOSING FACTORS: Patients who are elderly, are taking other CNS depressants, have decreased renal function, and/or have conditions that reduce lung function (e.g. Chronic Obstructive Pulmonary Disease [COPD]) may be at a higher risk of this interaction. PATIENT MANAGEMENT: Limit prescribing opioid analgesics and gabapentinoids to patients for whom alternatives are inadequate.(1) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a gabapentinoid with an opioid analgesic, prescribe a lower initial dose of the gabapentinoid than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a gabapentinoid, prescribe a lower dose of the opioid and titrate based upon clinical response.(1) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(8) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(1) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(9) DISCUSSION: In a study in 12 healthy males, administration of a single dose of morphine (60 mg sustained release) increased the area-under-curve (AUC) of a single dose of gabapentin (600 mg) by 44%.(1,3,4) There were no affects on the pharmacokinetics of morphine.(1,3,4) The combination of gabapentin plus morphine increased pain tolerance over the combination of morphine plus placebo. Side effects were not significantly different between morphine plus placebo and morphine plus gabapentin.(1) A retrospective, case-control study of opioid users in Ontario, Canada between August 1, 1997 and December 31, 2013 who died of an opioid-related cause matched cases to up to 4 controls who also used opioids. Use of gabapentin in the 120 days prior to death resulted in a significant increase in odds of opioid-related death (OR 1.99, CI=1.61-2.47, p<0.001), compared to opioid use alone. Use of moderate dose (900 mg to 1,799 mg daily) or high dose (>= 1,800 mg daily) gabapentin increased the odds of opioid-related death 60% compared to opioid use without gabapentin. Review of gabapentin prescriptions from calendar year 2013 found that 46% of gabapentin users received at least 1 opioid prescription.(3) Among 49 case reports submitted to FDA over a 5 year period (2012-2017), 12 people died from respiratory depression with gabapentinoids. Two randomized, double-blind, placebo-controlled clinical trials in healthy people, three observational studies, and several studies in animals were reviewed. A trial showed that using pregabalin alone and using it with an opioid pain reliever can depress breathing function. Three observational studies showed a relationship between gabapentinoids given before surgery and respiratory depression occurring after surgery. Several animal studies also showed that pregabalin plus opioids can depress respiratory function.(7) A retrospective cohort study evaluated the risk of mortality among Medicare beneficiaries aged 65 and older who were taking gabapentin with or without concurrent use of opioids. All-cause mortality in gabapentin users compared to duloxetine users was 12.16 per 1,000 person years vs. 9.94 per 1,000 person years, respectively. Adjusted for covariates, the risk of all-cause mortality among gabapentin users on high-dose opioids was more than double the control group (hazard ratio (HR) 2.03, CI=1.19-3.46).(10)	GABAPENTIN, GABAPENTIN ER, GABARONE, GRALISE, HORIZANT, LYRICA, LYRICA CR, NEURONTIN, PREGABALIN, PREGABALIN ER
Opioids/Butorphanol SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Butorphanol antagonize mu-opiate receptors. Other opioids agonize mu-opiate receptors.(1) CLINICAL EFFECTS: Concurrent use of butorphanol with other opioids in opioid dependent patients may result in withdrawal symptoms. Concurrent use in other patients may result in additive or decreased analgesia and decreased opioid side effects. PREDISPOSING FACTORS: Patients dependent on opioids may be more likely to experience withdrawal symptoms with concurrent use. Patients using higher doses of opioids may also be at a higher risk. PATIENT MANAGEMENT: Use butorphanol with caution in patients maintained or dependent on other opioids and monitor for signs of withdrawal. In other patients, also monitor for changes in analgesic effects. DISCUSSION: Because butorphanol antagonizes mu-opiate receptors and other opioids agonize mu-opiate receptors, concurrent use of buprenorphine with other opioids in opioid dependent patients may result in withdrawal symptoms. Concurrent use in other patients may result in additive or decreased analgesia and decreased opioid side effects.(1) In a study in patients maintained on methadone, butorphanol produced withdrawal symptoms comparable to naloxone.(2) In a case report, the use of remifentanil for conscious sedation in a patient maintained on butorphanol produced severe withdrawal symptoms.(3)	BUTORPHANOL TARTRATE
Opioids/Nalbuphine SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Nalbuphine(1) antagonizes mu-opiate receptors. Other opioids agonize mu-opiate receptors. CLINICAL EFFECTS: Concurrent use of nalbuphine with other opioids in opioid dependent patients may result in withdrawal symptoms. Concurrent use in other patients may result in additive or decreased analgesia, decreased opioid side effects, and/or renarcotization. PREDISPOSING FACTORS: Patients dependent on opioids may be more likely to experience withdrawal symptoms with concurrent use. In opioid naive patients, higher doses of nalbuphine may result in decreased analgesic effects. PATIENT MANAGEMENT: Use nalbuphine with caution in patients maintained or dependent on other opioids and monitor for signs of withdrawal. In other patients, also monitor for changes in analgesic effects. If nalbuphine is used to reverse opioid anesthesia, monitor patients for renarcotization. DISCUSSION: Nalbuphine has been successfully used as an adjunct to morphine without decreasing analgesic effects.(2,3) However, other studies reported increased morphine requirements in patients who had initially received nalbuphine.(4,5) Nalbuphine has been used to reverse fentanyl anesthesia;(8-13) however, patients often required additional pain medication(5-7) and some studies reported renarcotization after the effects of nalbuphine wore off.(9,10) Nalbuphine has also been used to prevent epidural fentanyl,(13) morphine(14-16), and hydromorphone induced pruritus;(17-18) however, one study reported shortening of the duration of analgesia(16) and another reported increased PCA demands.(17) In methadone-dependent subjects, administration of nalbuphine produced withdrawal symptoms similar to naloxone.(19,20) Administration of nalbuphine to patients maintained on controlled-release morphine resulted in withdrawal symptoms.(20,21)	NALBUPHINE HCL
Tramadol/Selected Moderate to Strong CYP2D6 Inhibitors SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Abiraterone, asunaprevir, berotralstat, bupropion, cinacalcet, dacomitinib, dronedarone, duloxetine, eliglustat, escitalopram, fluoxetine, hydroquinidine, levomethadone, lorcaserin, mirabegron, paroxetine, quinidine, rolapitant, oral terbinafine, and tipranavir are moderate or strong inhibitors of CYP2D6 and may decrease conversion of tramadol to its more active O-demethylated metabolite (M1).(1-6) M1 is up to 6 times more potent than tramadol in producing analgesia.(1) CLINICAL EFFECTS: Tramadol analgesic efficacy may be decreased due to lower mu-opioid receptor mediated analgesia.(1,9,10) Higher concentrations of tramadol may be associated with increased inhibition of norepinephrine and serotonin reuptake, increasing risk for seizures and serotonin syndrome.(1) Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(7) PREDISPOSING FACTORS: Risk for seizure may be increased with tramadol doses above the recommended range, in patients with metabolic disorders, alcohol or drug withdrawal, infection of the central nervous system, or with a history of seizures or head trauma.(1) Treatment with multiple medications which increase serotonin levels, or with medications which inhibit the metabolism of serotonin increasing drugs are risk factors for serotonin syndrome.(1,7) Patients with CYP2D6 ultrarapid, normal, and intermediate metabolizer phenotypes may be affected to a greater extent by CYP2D6 inhibitors. For patients on strong CYP2D6 inhibitors, the predicted phenotype is a CYP2D6 poor metabolizer.(14) Patients who are CYP2D6 poor metabolizers lack CYP2D6 function and are not affected by CYP2D6 inhibition.(14) PATIENT MANAGEMENT: If a CYP2D6 inhibitor is started in a patient stabilized on long term tramadol therapy, monitor for loss of analgesic efficacy. When initiating tramadol in a patient stabilized on a moderate or strong CYP2D6 inhibitor, anticipate lower analgesic efficacy. Hospitalized patients may need added doses of rescue analgesics to achieve adequate pain control.(9,10) To decrease risk for serotonin syndrome, consider change to an alternative analgesic for patients taking other serotonin increasing drugs in addition to concomitant tramadol and a CYP2D6 inhibitor. If a CYP2D6 inhibitor is discontinued, consider lowering the dose of tramadol until patient achieves stable drug effects. The effects of rolapitant, a moderate CYP2D6 inhibitor, on CYP2D6 are expected to last at least 28 days after administration.(12) DISCUSSION: Tramadol and its M1 metabolite both contribute to analgesic efficacy. Tramadol inhibits the reuptake of norepinephrine and serotonin with minimal opioid receptor binding. The M1 metabolite has 200 times greater binding affinity for the mu-opioid receptor than tramadol and is 6 times more potent in producing analgesia.(1) CYP2D6 converts tramadol to M1.(1,8) A prospective study evaluated the impact of 2D6 genotype on tramadol analgesia after abdominal surgery. Rescue doses of opioids were required in 47% of poor metabolizers (PM) versus 22% of extensive metabolizers (EM) of 2D6.(9) A follow-up study included 2D6 EM patients who received concomitant treatment with 2D6 inhibitors. Levels of the M1 metabolite were decreased by 80-90% compared with EM patients not taking 2D6 inhibitors. The authors noted some EM patients were converted to the PM phenotype.(10) In both studies, higher M1 levels were associated with greater analgesic efficacy and decreased need for rescue opioid treatment.(9,10) A study in 12 healthy volunteers found that a single dose of tramadol (50 mg) given to patients on terbinafine (a strong CYP2D6 inhibitor) resulted in tramadol AUC and Cmax that were 2.1-fold and 1.5-fold higher, respectively, than tramadol given alone. The AUC and Cmax of M1 were decreased by 64 % and 78 %, respectively.(13) A single dose of rolapitant increased dextromethorphan, a CYP2D6 substrate, about 3-fold on days 8 and day 22 following administration. Dextromethorphan levels remained elevated by 2.3-fold on day 28 after single dose rolapitant. The inhibitory effects of rolapitant on CYP2D6 are expected to persist beyond 28 days.(12)	ABIRATERONE ACETATE, ABIRTEGA, AKEEGA, APLENZIN, APTIVUS, AUVELITY, BUPROPION HCL, BUPROPION HCL SR, BUPROPION XL, CERDELGA, CINACALCET HCL, CONTRAVE, CYMBALTA, DRIZALMA SPRINKLE, DULOXETINE HCL, DULOXICAINE, ESCITALOPRAM OXALATE, FLUOXETINE DR, FLUOXETINE HCL, FORFIVO XL, LEXAPRO, MIRABEGRON ER, MULTAQ, MYRBETRIQ, NUEDEXTA, OLANZAPINE-FLUOXETINE HCL, ORLADEYO, PAROXETINE CR, PAROXETINE ER, PAROXETINE HCL, PAROXETINE MESYLATE, PAXIL, PAXIL CR, PROZAC, QUINIDINE GLUCONATE, QUINIDINE SULFATE, SENSIPAR, TERBINAFINE HCL, TRUQAP, VARUBI, VIZIMPRO, WELLBUTRIN SR, WELLBUTRIN XL, YONSA, ZYTIGA
Trazodone (Greater Than 50 mg)/Meperidine; Tramadol SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Tramadol inhibits the reuptake of serotonin.(1,2) Metabolism of trazodone leads to formation of a common active metabolite, m-chlorophenylpiperazine (mCPP) which is an agonist at a variety of serotonin receptors.(3-5) Both tramadol and mCPP are metabolized by CYP2D6.(1,3-5) CLINICAL EFFECTS: Concurrent administration could increase the risk for serotonin syndrome. Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(6) PREDISPOSING FACTORS: Serotonin syndrome risk is dose-related. Higher systemic concentrations of meperidine, tramadol or mCPP would be predicted to increase risk for serotonin toxicity. Concomitant therapy with other agents which increase brain serotonin concentrations may also increase risk.(1-3,6) Renal dysfunction and chronic use of meperidine would be expected to increase the risk for serotonin toxicity due to meperidine. Concomitant treatment with inhibitors of CYP2D6 (e.g. bupropion, cinacalcet, duloxetine, fluoxetine, paroxetine, quinidine, or systemic terbinafine) may also increase mCPP and tramadol concentrations, increasing risk for serotonin toxicity. Patients who are poor metabolizers at CYP2D6 would be expected to have higher tramadol and mCPP concentrations compared with extensive metabolizers.(1,3) PATIENT MANAGEMENT: Assess patient for predisposing risk factors and monitor accordingly. Manufacturers of meperidine, tramadol and trazodone recommend careful monitoring for signs and symptoms of serotonin syndrome when a metabolic inhibitor or another serotoninergic agent is started, or when the dose of either agent is increased.(1-3) DISCUSSION: Meperidine, tramadol, and trazodone have each been associated with serotonin syndrome when given concurrently with one or more serotoninergic agents.(1-3) MCPP has been associated with serotonin syndrome when used as a probe of central serotonin function in human investigational studies.(7) CYP3A4 converts trazodone to mCPP which is then converted to an inactive metabolite via CYP2D6.(3-4)	RALDESY, TRAZODONE HCL
Busulfan/Acetaminophen SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Busulfan is eliminated from the body via glutathione conjugation. Acetaminophen reduces glutathione levels in the blood and tissues and therefore could decrease the elimination rate of busulfan.(1,2) CLINICAL EFFECTS: Concurrent use of acetaminophen may result in elevated levels of, prolonged exposure to, and toxicity from busulfan, including myelosuppression, granulocytopenia, thrombocytopenia, anemia, seizures, hepatic veno-occlusive disease, cardiac tamponade, bronchopulmonary dysplasia, or cellular dysplasia.(1,2) PREDISPOSING FACTORS: None determined. PATIENT MANAGEMENT: Use acetaminophen concurrent with busulfan with caution.(1) Consider withholding acetaminophen for 72 hours before and during busulfan therapy. If concurrent use cannot be avoided, monitor patients for busulfan toxicity. DISCUSSION: Although a small population study in adult patients found no effect of acetaminophen on busulfan clearance,(3) caution is still warranted.(1)	BUSULFAN, BUSULFEX, MYLERAN
Opioids (Immediate Release)/Benzodiazepines SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Concurrent use of opioids and benzodiazepines may result in additive CNS depression.(1) CLINICAL EFFECTS: Concurrent use of opioids and other CNS depressants, such as benzodiazepines, may result in profound sedation, respiratory depression, coma, and/or death.(1) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. PATIENT MANAGEMENT: Limit prescribing opioid analgesics with CNS depressants such as benzodiazepines to patients for whom alternatives are inadequate.(1) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(1) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(2) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(1) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(3) DISCUSSION: Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(4) From 2004 to 2011, the rate of nonmedical use-related emergency room visits involving both opioids and benzodiazepines increased from 11 to 34.2 per 100,000 and drug overdose deaths involving both opioids and benzodiazepines increased from 0.6 to 1.7 per 100,000. The proportion of prescription opioid analgesic deaths which also involved benzodiazepines increased from 18% to 31% during this time.(5) A prospective observational cohort study in North Carolina found that the rates of overdose death among patients co-dispensed opioid analgesics and benzodiazepines were 10 times higher than patients receiving opioid analgesics alone.(6) A case-cohort study of VA data from 2004-2009 found that the risk of death from overdose increased with concomitant opioid analgesics and benzodiazepines. Compared to patients with no history of benzodiazepines, patients with a history of benzodiazepine use (hazard ratio [HR] = 2.33) and patients with a current benzodiazepine prescription (HR=3.86) had an increased risk of fatal overdose.(7) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(8) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(9) A study of 315,428 privately insured patients who filled at least one prescription for an opioid from 2001 to 2013 were enrolled in a retrospective study. Concurrent use of a benzodiazepine was recorded as having at least one day of overlap in a given calendar year. Baseline characteristics among opioid users with concurrent use of a benzodiazepine were older (44.5 v. 42.4, p<0.001), less likely to be men (35% v. 43%, p<0.001), and had a higher prevalence rate of every comorbidity examined (p<0.001). The proportion of opioid users with concurrent benzodiazepine use nearly doubled from 9% in 2001 to 17% in 2013. The primary outcome was an emergency room visit or inpatient admission for opioid overdose within a calendar year. Among all opioid users, the annual adjusted incidence for the primary outcome was 1.16% without concurrent benzodiazepine use compared to 2.42% with concurrent benzodiazepine use (OR 2.14; 95% CI 2.05-2.24; p<0.001). Intermittent opioid users (1.45% v. 1.02%; OR 1.42; 95% CI 1.33-1.51; p<0.001) and chronic opioid users (5.36% v. 3.13%; OR 1.81; 95% CI 1.67-1.96; p<0.001) also experienced a higher adjusted incidence of the primary outcome with concurrent benzodiazepine use compared to without concurrent benzodiazepine use, respectively.(10) In a nested case-control study of adults with a new opioid dispensing between 2010-2018, patients with concurrent use of an opioid with a benzodiazepine were significantly more likely to have opioid-related overdose compared to patients receiving opioids, benzodiazepines, or neither (OR 9.28; 95% CI 7.87, 10.93). Longer concurrent use of 1-7, 8-30, and 31-90 days was associated with 4.6, 12.1, and 26.7-fold higher likelihood of opioid-related overdose (p<0.01). Patients with overlapping prescriptions during previous 0-30, 31-60, and 61-90 days were 13.2, 6.0, and 3.2-times more likely to experience an overdose (p<0.01).(11)	ALPRAZOLAM, ALPRAZOLAM ER, ALPRAZOLAM INTENSOL, ALPRAZOLAM ODT, ALPRAZOLAM XR, ATIVAN, BYFAVO, CHLORDIAZEPOXIDE HCL, CHLORDIAZEPOXIDE-AMITRIPTYLINE, CHLORDIAZEPOXIDE-CLIDINIUM, CLOBAZAM, CLONAZEPAM, CLORAZEPATE DIPOTASSIUM, DIAZEPAM, DORAL, ESTAZOLAM, FLURAZEPAM HCL, HALCION, KLONOPIN, LIBRAX, LORAZEPAM, LORAZEPAM INTENSOL, LOREEV XR, MIDAZOLAM, MIDAZOLAM HCL, MIDAZOLAM HCL-0.8% NACL, MIDAZOLAM HCL-0.9% NACL, MIDAZOLAM HCL-D5W, MIDAZOLAM HCL-NACL, MIDAZOLAM-0.9% NACL, MIDAZOLAM-NACL, MKO (MIDAZOLAM-KETAMINE-ONDAN), NAYZILAM, ONFI, OXAZEPAM, QUAZEPAM, RESTORIL, SYMPAZAN, TEMAZEPAM, TRIAZOLAM, VALIUM, VALTOCO, XANAX, XANAX XR
Opioids (Immediate Release)/Sleep Drugs SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Concurrent use of opioids and sleep drugs may result in additive CNS depression and sleep-related disorders.(1) CLINICAL EFFECTS: Concurrent use of opioids and other CNS depressants, such as sleep drugs, may result in profound sedation, respiratory depression, coma, and/or death.(1) Concurrent use of opioids with eszopiclone, zaleplon, or zolpidem may increase the risk of sleep-related disorders including central sleep apnea and sleep-related hypoxemia and complex sleep behaviors like sleepwalking, sleep driving, and other activities while not fully awake. Rarely, serious injuries or death have resulted from complex sleep behaviors.(2) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. PATIENT MANAGEMENT: Limit prescribing opioid analgesics with CNS depressants such as sleep drugs to patients for whom alternatives are inadequate.(1) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(1) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(3) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(1) Eszopiclone, zaleplon, and zolpidem are contraindicated in patients who have had a previous episode of complex sleep behavior.(2) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(4) DISCUSSION: Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(5) From 2004 to 2011, the rate of nonmedical use-related emergency room visits involving both opioids and benzodiazepines increased from 11 to 34.2 per 100,000 and drug overdose deaths involving both opioids and benzodiazepines increased from 0.6 to 1.7 per 100,000. The proportion of prescription opioid analgesic deaths which also involved benzodiazepines increased from 18% to 31% during this time.(6) A prospective observational cohort study in North Carolina found that the rates of overdose death among patients co-dispensed opioid analgesics and benzodiazepines were 10 times higher than patients receiving opioid analgesics alone.(7) A case-cohort study of VA data from 2004-2009 found that the risk of death from overdose increased with concomitant opioid analgesics and benzodiazepines. Compared to patients with no history of benzodiazepines, patients with a history of benzodiazepine use (hazard ratio [HR] = 2.33) and patients with a current benzodiazepine prescription (HR=3.86) had an increased risk of fatal overdose.(8) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(9) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(10) As of April 2019, the FDA had identified 66 cases of complex sleep behaviors with eszopiclone, zaleplon, or zolpidem, of which 20 cases resulted in death and the remainder resulted in serious injuries. It was not reported how many of the cases involved concomitant use of other CNS depressants.(2)	AMBIEN, AMBIEN CR, BELSOMRA, DAYVIGO, EDLUAR, ESZOPICLONE, LUNESTA, QUVIVIQ, RAMELTEON, ROZEREM, ZALEPLON, ZOLPIDEM TARTRATE, ZOLPIDEM TARTRATE ER
Opioids (Immediate Release)/Muscle Relaxants SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Concurrent use of opioids and muscle relaxants may result in additive CNS depression.(1) CLINICAL EFFECTS: Concurrent use of opioids and other CNS depressants, such as muscle relaxants, may result in profound sedation, respiratory depression, coma, and/or death.(1) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. PATIENT MANAGEMENT: Limit prescribing opioid analgesics with CNS depressants such as muscle relaxants to patients for whom alternatives are inadequate.(1) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(1) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(2) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(1) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(3) DISCUSSION: Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(4) A retrospective cohort study compared the risk of opioid overdose associated with concomitant use of opioids and skeletal muscle relaxants versus opioid use alone. The study examined two types of opioid users (naive opioid use and prevalent opioid use) with and without exposure to skeletal muscle relaxants. The adjusted hazard ratios (HR) were 1.09 and 1.26 in the naive and prevalent opioid user cohorts, respectively, generating a combined estimate of 1.21. The risk increased with treatment duration (less than or equal to 14 days: 0.91; 15-60 days: 1.37; and greater than 60 days: 1.80) and for the use of baclofen and carisoprodol (HR 1.83 and 1.84, respectively). Elevated risk was associated with concomitant users with daily opioid dose greater than 50 mg and benzodiazepine use (HR 1.50 and 1.39, respectively).(5) From 2004 to 2011, the rate of nonmedical use-related emergency room visits involving both opioids and benzodiazepines increased from 11 to 34.2 per 100,000 and drug overdose deaths involving both opioids and benzodiazepines increased from 0.6 to 1.7 per 100,000. The proportion of prescription opioid analgesic deaths which also involved benzodiazepines increased from 18% to 31% during this time.(6) A prospective observational cohort study in North Carolina found that the rates of overdose death among patients co-dispensed opioid analgesics and benzodiazepines were 10 times higher than patients receiving opioid analgesics alone.(7) A case-cohort study of VA data from 2004-2009 found that the risk of death from overdose increased with concomitant opioid analgesics and benzodiazepines. Compared to patients with no history of benzodiazepines, patients with a history of benzodiazepine use (hazard ratio [HR] = 2.33) and patients with a current benzodiazepine prescription (HR=3.86) had an increased risk of fatal overdose.(8) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(9) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(10)	BACLOFEN, CARISOPRODOL, CARISOPRODOL-ASPIRIN, CARISOPRODOL-ASPIRIN-CODEINE, CHLORZOXAZONE, DANTRIUM, DANTROLENE SODIUM, FLEQSUVY, LORZONE, LYVISPAH, MEPROBAMATE, METHOCARBAMOL, NORGESIC, NORGESIC FORTE, ORPHENADRINE CITRATE, ORPHENADRINE CITRATE ER, ORPHENADRINE-ASPIRIN-CAFFEINE, ORPHENGESIC FORTE, OZOBAX, OZOBAX DS, REVONTO, ROBAXIN, RYANODEX, SOMA, TANLOR, TIZANIDINE HCL, VANADOM, ZANAFLEX
Desmopressin/Agents with Hyponatremia Risk SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Carbamazepine, chlorpromazine, lamotrigine, NSAIDs, opioids, SSRIs, thiazide diuretics, and/or tricyclic antidepressants increase the risk of hyponatremia.(1-3) CLINICAL EFFECTS: Concurrent use may increase the risk of hyponatremia with desmopressin.(1-3) 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 (glucocorticoids, loop diuretics). PATIENT MANAGEMENT: The concurrent use of agents with a risk of hyponatremia with desmopressin may increase the risk of hyponatremia. 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
Amphetamines/Tramadol SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Opioids and stimulants exhibit opposing effects on the CNS.(1) Amphetamines may affect serotonin release and/or reuptake, depending on their molecular structure. Ring substitution tends to increase amphetamine-induced release of endogenous serotonin. However, the effect on serotonin release may also be dose related and is more likely if the amphetamine is taken in doses greater than those approved and generally employed in treating attention-deficit-hyperactivity-disorder, or if abused, especially over long periods of time.(2) Concurrent administration of amphetamines with tramadol may result in additive effects on serotonin, resulting in serotonin syndrome.(3,4) CLINICAL EFFECTS: Concurrent use of opioids and stimulants may have unpredictable effects and may mask overdose symptoms of the opioid, such as drowsiness and inability to focus. Concurrent use of amphetamines with other serotonergic agents may increase the risk of serotonin syndrome, a potentially life-threatening syndrome which may include one or more of the following symptoms: tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(5) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. High doses or long-term abuse of amphetamines may increase the risk of serotonin syndrome. Use of multiple drugs which increase serotonin levels is associated with an increased risk for this toxidrome. PATIENT MANAGEMENT: Limit prescribing tramadol with CNS stimulants such as amphetamines to patients for whom alternatives are inadequate. Concurrent use of amphetamines with tramadol should be approached with appropriate monitoring. If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. Consider initiating amphetamines or tramadol at lower doses and monitored for signs and symptoms of serotonin syndrome. Discontinue medication if symptoms occur.(3,4) Instruct patients receiving concurrent therapy to report any signs or symptoms of serotonin syndrome immediately. Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with stimulants.(1) Monitor patients receiving concurrent therapy for signs of substance abuse. DISCUSSION: A total of 70,237 persons died from drug overdoses in the United States in 2017; approximately two thirds of these deaths involved an opioid.(2). The CDC analyzed 2016-2017 changes in age-adjusted death rates involving cocaine and psychostimulants by demographic characteristics, urbanization levels, U.S. Census region, 34 states, and the District of Columbia (DC). The CDC also examined trends in age-adjusted cocaine-involved and psychostimulant-involved death rates from 2003 to 2017 overall, as well as with and without co-involvement of opioids. Among all 2017 drug overdose deaths, 13,942 (19.8%) involved cocaine, and 10,333 (14.7%) involved psychostimulants. Death rates increased from 2016 to 2017 for both drug categories across demographic characteristics, urbanization levels, Census regions, and states. In 2017, opioids were involved in 72.7% and 50.4% of cocaine-involved and psychostimulant-involved overdoses, respectively, and the data suggest that increases in cocaine-involved overdose deaths from 2012 to 2017 were driven primarily by synthetic opioids.(7) There was opioid co-involvement in 72.7 percent of cocaine and 50.4 percent of stimulant-involved overdose deaths. This was largely driven by synthetic opioids such as fentanyl. However, stimulant-involved overdose without opioid co-involvement is also increasing.(6)	ADDERALL, ADDERALL XR, ADZENYS XR-ODT, AMPHETAMINE SULFATE, DESOXYN, DEXEDRINE, DEXTROAMPHETAMINE SULFATE, DEXTROAMPHETAMINE SULFATE ER, DEXTROAMPHETAMINE-AMPHET ER, DEXTROAMPHETAMINE-AMPHETAMINE, DYANAVEL XR, EVEKEO, HYDROXYAMPHETAMINE HBR, LISDEXAMFETAMINE DIMESYLATE, METHAMPHETAMINE HCL, MYDAYIS, PROCENTRA, VYVANSE, XELSTRYM, ZENZEDI
Trazodone (Less Than or Equal To 50 mg)/Meperidine; Tramadol SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Meperidine and tramadol inhibit the reuptake of serotonin.(1,2) Metabolism of trazodone leads to formation of the active metabolite, m-chlorophenylpiperazine (mCPP) which is an agonist at a variety of serotonin receptors.(3,4) Both tramadol and mCPP are metabolized by CYP2D6.(2,4-6) CLINICAL EFFECTS: Concurrent administration could increase the risk for serotonin syndrome. Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(7) PREDISPOSING FACTORS: Serotonin syndrome risk is dose-related. Higher systemic concentrations of meperidine, tramadol or mCPP would be predicted to increase risk for serotonin toxicity. Concomitant therapy with other agents which increase brain serotonin concentrations may also increase risk.(1-3,7) Renal dysfunction and chronic use of meperidine would be expected to increase the risk for serotonin toxicity due to meperidine. Concomitant treatment with inhibitors of CYP2D6 (e.g. bupropion, cinacalcet, duloxetine, fluoxetine, paroxetine, quinidine, or systemic terbinafine) may also increase mCPP and tramadol concentrations, increasing risk for serotonin toxicity. Patients who are poor metabolizers at CYP2D6 would be expected to have higher tramadol and mCPP concentrations compared with extensive metabolizers.(2,3) PATIENT MANAGEMENT: Assess patient for predisposing risk factors and monitor accordingly. Manufacturers of meperidine, tramadol and trazodone recommend careful monitoring for signs and symptoms of serotonin syndrome when a metabolic inhibitor or another serotoninergic agent is started, or when the dose of either agent is increased.(1-3) DISCUSSION: Meperidine, tramadol and trazodone have each been associated with serotonin syndrome when given concurrently with one or more serotoninergic agents.(1-3) MCPP has been associated with serotonin syndrome when used as a probe of central serotonin function in human investigational studies.(8) CYP3A4 converts trazodone to mCPP which is then converted to an inactive metabolite via CYP2D6.(3,4)	TRAZODONE HCL
Tramadol (IR)/Selected Antipsychotics; Phenothiazines SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Concurrent use of opioids such as tramadol and antipsychotics, including phenothiazine derivatives, may result in additive CNS depression.(1) CLINICAL EFFECTS: Concurrent use of opioids such as tramadol and other CNS depressants, such as antipsychotics, including phenothiazine derivatives, may result in profound sedation, respiratory depression, coma, and/or death.(1) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. PATIENT MANAGEMENT: Limit prescribing opioid analgesics such as tramadol with CNS depressants such as antipsychotics, including phenothiazine derivatives, to patients for whom alternatives are inadequate.(1) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(1) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(2) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(1) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(3) DISCUSSION: A nested case-control study looked at the relationship between antipsychotic use and risk of acute respiratory failure. Current use of antipsychotics was associated with a 2.33-fold increase in risk of respiratory failure compared to no use of antipsychotics. The risk was also significantly increased in patients with recent use of antipsychotics (within the past 15-30 days, OR = 1.79) and recent past use (within 31-90 days OR = 1.41). The risk increased with higher doses and longer duration of use.(4) Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(5) From 2004 to 2011, the rate of nonmedical use-related emergency room visits involving both opioids and benzodiazepines increased from 11 to 34.2 per 100,000 and drug overdose deaths involving both opioids and benzodiazepines increased from 0.6 to 1.7 per 100,000. The proportion of prescription opioid analgesic deaths which also involved benzodiazepines increased from 18% to 31% during this time.(6) A prospective observational cohort study in North Carolina found that the rates of overdose death among patients co-dispensed opioid analgesics and benzodiazepines were 10 times higher than patients receiving opioid analgesics alone.(7) A case-cohort study of VA data from 2004-2009 found that the risk of death from overdose increased with concomitant opioid analgesics and benzodiazepines. Compared to patients with no history of benzodiazepines, patients with a history of benzodiazepine use (hazard ratio [HR] = 2.33) and patients with a current benzodiazepine prescription (HR=3.86) had an increased risk of fatal overdose.(8) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(9) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(10)	MOLINDONE HCL
Tramadol (IR)/Selected Antipsychotics; Phenothiazines SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Concurrent use of opioids such as tramadol and antipsychotics, including phenothiazine derivatives, may result in additive CNS depression.(1) CLINICAL EFFECTS: Concurrent use of opioids such as tramadol and other CNS depressants, such as antipsychotics, including phenothiazine derivatives, may result in profound sedation, respiratory depression, coma, and/or death.(1) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. PATIENT MANAGEMENT: Limit prescribing opioid analgesics such as tramadol with CNS depressants such as antipsychotics, including phenothiazine derivatives, to patients for whom alternatives are inadequate.(1) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(1) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(2) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(1) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(3) DISCUSSION: A nested case-control study looked at the relationship between antipsychotic use and risk of acute respiratory failure. Current use of antipsychotics was associated with a 2.33-fold increase in risk of respiratory failure compared to no use of antipsychotics. The risk was also significantly increased in patients with recent use of antipsychotics (within the past 15-30 days, OR = 1.79) and recent past use (within 31-90 days OR = 1.41). The risk increased with higher doses and longer duration of use.(4) Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(5) From 2004 to 2011, the rate of nonmedical use-related emergency room visits involving both opioids and benzodiazepines increased from 11 to 34.2 per 100,000 and drug overdose deaths involving both opioids and benzodiazepines increased from 0.6 to 1.7 per 100,000. The proportion of prescription opioid analgesic deaths which also involved benzodiazepines increased from 18% to 31% during this time.(6) A prospective observational cohort study in North Carolina found that the rates of overdose death among patients co-dispensed opioid analgesics and benzodiazepines were 10 times higher than patients receiving opioid analgesics alone.(7) A case-cohort study of VA data from 2004-2009 found that the risk of death from overdose increased with concomitant opioid analgesics and benzodiazepines. Compared to patients with no history of benzodiazepines, patients with a history of benzodiazepine use (hazard ratio [HR] = 2.33) and patients with a current benzodiazepine prescription (HR=3.86) had an increased risk of fatal overdose.(8) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(9) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(10)	ABILIFY, ABILIFY ASIMTUFII, ABILIFY MAINTENA, ADASUVE, ARIPIPRAZOLE, ARIPIPRAZOLE ODT, ARISTADA, ARISTADA INITIO, ASENAPINE MALEATE, BARHEMSYS, CAPLYTA, CHLORPROMAZINE HCL, CLOZAPINE, CLOZAPINE ODT, CLOZARIL, COMPAZINE, COMPRO, DROPERIDOL, ERZOFRI, FANAPT, FLUPHENAZINE DECANOATE, FLUPHENAZINE HCL, HALDOL DECANOATE 100, HALDOL DECANOATE 50, HALOPERIDOL, HALOPERIDOL DECANOATE, HALOPERIDOL DECANOATE 100, HALOPERIDOL LACTATE, INVEGA, INVEGA HAFYERA, INVEGA SUSTENNA, INVEGA TRINZA, LATUDA, LOXAPINE, LURASIDONE HCL, NUPLAZID, OLANZAPINE, OLANZAPINE ODT, OLANZAPINE-FLUOXETINE HCL, OPIPZA, PALIPERIDONE ER, PERPHENAZINE, PERPHENAZINE-AMITRIPTYLINE, PERSERIS, PHENERGAN, PIMOZIDE, PROCHLORPERAZINE, PROCHLORPERAZINE EDISYLATE, PROCHLORPERAZINE MALEATE, PROMETHAZINE HCL, PROMETHAZINE HCL-0.9% NACL, PROMETHAZINE VC, PROMETHAZINE-CODEINE, PROMETHAZINE-DM, PROMETHAZINE-PHENYLEPHRINE HCL, PROMETHEGAN, QUETIAPINE FUMARATE, QUETIAPINE FUMARATE ER, REXULTI, RISPERDAL, RISPERDAL CONSTA, RISPERIDONE, RISPERIDONE ER, RISPERIDONE ODT, RYKINDO, SAPHRIS, SECUADO, SEROQUEL, SEROQUEL XR, THIORIDAZINE HCL, THIORIDAZINE HYDROCHLORIDE, THIOTHIXENE, TRIFLUOPERAZINE HCL, UZEDY, VERSACLOZ, VRAYLAR, ZYPREXA
Tramadol/Selected SSRIs; SNRIs SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: The concurrent administration of tramadol with a selective serotonin reuptake inhibitor (SSRI) or a serotonin/norepinephrine reuptake inhibitor (SNRI) may result in additive blockade of serotonin reuptake, leading to central serotonergic hyperstimulation.(1) The combination of tramadol and SSRIs or SNRIs may also lower the seizure threshold.(1) CLINICAL EFFECTS: Concurrent administration may increase the risk for serotonin syndrome. Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(2) Concurrent administration may increase the risk for seizures, especially in susceptible individuals.(1) PREDISPOSING FACTORS: Treatment with multiple medications which increase serotonin levels or with medications which inhibit the metabolism of serotonin increasing drugs are risk factors for serotonin syndrome.(2) Predisposing factors for a lower seizure threshold include a history of seizures, epilepsy, or a recognized risk for seizures (e.g. head trauma, metabolic disorders, alcohol, drug withdrawal, infections of the central nervous system). A genetic defect in CYP2D6 leading to the slow metabolizer phenotype may increase the risk for serotonin syndrome due to tramadol. PATIENT MANAGEMENT: If concurrent therapy of tramadol with a SSRI or SNRI is warranted, patients should be closely monitored for signs and symptoms of serotonin syndrome and increased seizure activity.(1) DISCUSSION: There are a number of serotonin syndrome case reports following the addition of tramadol to a stable selective serotonin reuptake inhibitor regimen. The syndrome developed between 12 hours to 3 weeks after the initiation of tramadol therapy. Patients recovered after tramadol and/or the SSRI/SNRI was discontinued.(3-14) One patient also developed mania.(3) Another patient developed nightmares and hallucinations after taking concurrent tramadol and paroxetine for 56 days.(15) One author suggests that although the combination of tramadol and SSRIs or SNRIs is associated with a risk for serotonin syndrome, given the high rate of co-prescribing for the combination it is an uncommon outcome.(16) A review of the 124 reports of seizures following tramadol therapy received by the FDA through July 31, 1996 revealed that 20 patients were receiving concurrent therapy with an selective serotonin reuptake inhibitor.(17) The manufacturer of tramadol states that the risk of seizure is increased in patients receiving concurrent therapy with selective serotonin reuptake inhibitors.(1) Selected SSRIs and SNRIs linked to this monograph include: citalopram, desvenlafaxine, fluvoxamine, levomilnacipran, milnacipran, sertraline, sibutramine, venlafaxine, vilazodone, and vortioxetine.	CELEXA, CITALOPRAM HBR, DESVENLAFAXINE ER, DESVENLAFAXINE SUCCINATE ER, EFFEXOR XR, FETZIMA, FLUVOXAMINE MALEATE, FLUVOXAMINE MALEATE ER, PRISTIQ, SAVELLA, SERTRALINE HCL, TRINTELLIX, VENLAFAXINE BESYLATE ER, VENLAFAXINE HCL, VENLAFAXINE HCL ER, VIIBRYD, VILAZODONE HCL, ZOLOFT
Select Opioids (Immediate Release)/Select Tranquilizers SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Concurrent use of opioids and tranquilizers may result in additive CNS depression.(1) CLINICAL EFFECTS: Concurrent use of opioids and other CNS depressants such as tranquilizers may result in profound sedation, respiratory depression, coma, and/or death.(1) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. PATIENT MANAGEMENT: Limit prescribing opioid analgesics with CNS depressants such as tranquilizers to patients for whom alternatives are inadequate.(1) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(1) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(2) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness.(1) Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(3) DISCUSSION: Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(4) From 2004 to 2011, the rate of nonmedical use-related emergency room visits involving both opioids and benzodiazepines increased from 11 to 34.2 per 100,000 and drug overdose deaths involving both opioids and benzodiazepines increased from 0.6 to 1.7 per 100,000. The proportion of prescription opioid analgesic deaths which also involved benzodiazepines increased from 18% to 31% during this time.(5) A prospective observational cohort study in North Carolina found that the rates of overdose death among patients co-dispensed opioid analgesics and benzodiazepines were 10 times higher than patients receiving opioid analgesics alone.(6) A case-cohort study of VA data from 2004-2009 found that the risk of death from overdose increased with concomitant opioid analgesics and benzodiazepines. Compared to patients with no history of benzodiazepines, patients with a history of benzodiazepine use (hazard ratio [HR] = 2.33) and patients with a current benzodiazepine prescription (HR=3.86) had an increased risk of fatal overdose.(7) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(8) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(9)	PENTOBARBITAL SODIUM
Nefazodone/Tramadol SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Tramadol inhibits the reuptake of serotonin.(1) Metabolism of nefazodone leads to formation of a common active metabolite, m-chlorophenylpiperazine (mCPP) which is an agonist at a variety of serotonin receptors.(2-3) Both tramadol and mCPP are metabolized by CYP2D6.(1,3-5) CLINICAL EFFECTS: Concurrent administration could increase the risk for serotonin syndrome. Symptoms of serotonin syndrome may include tremor, agitation, diaphoresis, hyperreflexia, clonus, tachycardia, hyperthermia, and muscle rigidity.(6) PREDISPOSING FACTORS: Serotonin syndrome risk is dose-related. Higher systemic concentrations of tramadol or mCPP would be predicted to increase risk for serotonin toxicity. Concomitant therapy with other agents which increase brain serotonin concentrations may also increase risk.(1,2,6) Renal dysfunction and chronic use of meperidine would be expected to increase the risk for serotonin toxicity due to meperidine. Concomitant treatment with inhibitors of CYP2D6 (e.g. bupropion, cinacalcet, duloxetine, fluoxetine, paroxetine, quinidine, or systemic terbinafine) may also increase mCPP and tramadol concentrations, increasing risk for serotonin toxicity. Patients who are poor metabolizers at CYP2D6 would be expected to have higher tramadol and mCPP concentrations compared with extensive metabolizers.(1) PATIENT MANAGEMENT: Assess patient for predisposing risk factors and monitor accordingly. The manufacturer of tramadol recommends careful monitoring for signs and symptoms of serotonin syndrome when a metabolic inhibitor or another serotoninergic agent is started, or when the dose of either agent is increased.(1) DISCUSSION: Nefazodone and tramadol have each been associated with serotonin syndrome when given concurrently with one or more serotoninergic agents.(1-2) MCPP has been associated with serotonin syndrome when used as a probe of central serotonin function in human investigational studies.(7) Nefazodone has several active metabolites, including mCCP. Although systemic mCPP concentrations are low relative to nefazodone concentrations, in animal studies the ratio of brain:blood concentrations for mCPP to nefazodone were 47:1 and 10:1 in the mouse and rat respectively.(3)	NEFAZODONE HCL
Tramadol/Methylphenidate SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Opioids and methylphenidate exhibit opposing effects on the CNS.(1) CLINICAL EFFECTS: Concurrent use of opioids and methylphenidate may have unpredictable effects and may mask overdose symptoms of the opioid, such as drowsiness and inability to focus. PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. PATIENT MANAGEMENT: Limit prescribing tramadol with CNS stimulants such as methylphenidate to patients for whom alternatives are inadequate. Concurrent use of methylphenidate with tramadol should be approached with appropriate monitoring. If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with stimulants.(1) Monitor patients receiving concurrent therapy for signs of substance abuse. DISCUSSION: A total of 70,237 persons died from drug overdoses in the United States in 2017; approximately two thirds of these deaths involved an opioid.(2). The CDC analyzed 2016-2017 changes in age-adjusted death rates involving cocaine and psychostimulants by demographic characteristics, urbanization levels, U.S. Census region, 34 states, and the District of Columbia (DC). The CDC also examined trends in age-adjusted cocaine-involved and psychostimulant-involved death rates from 2003 to 2017 overall, as well as with and without co-involvement of opioids. Among all 2017 drug overdose deaths, 13,942 (19.8%) involved cocaine, and 10,333 (14.7%) involved psychostimulants. Death rates increased from 2016 to 2017 for both drug categories across demographic characteristics, urbanization levels, Census regions, and states. In 2017, opioids were involved in 72.7% and 50.4% of cocaine-involved and psychostimulant-involved overdoses, respectively, and the data suggest that increases in cocaine-involved overdose deaths from 2012 to 2017 were driven primarily by synthetic opioids.(3) There was opioid co-involvement in 72.7 percent of cocaine and 50.4 percent of stimulant-involved overdose deaths. This was largely driven by synthetic opioids such as fentanyl. However, stimulant-involved overdose without opioid co-involvement is also increasing.(2)	APTENSIO XR, AZSTARYS, CONCERTA, COTEMPLA XR-ODT, DAYTRANA, DEXMETHYLPHENIDATE HCL, DEXMETHYLPHENIDATE HCL ER, FOCALIN, FOCALIN XR, JORNAY PM, METADATE CD, METADATE ER, METHYLIN, METHYLPHENIDATE, METHYLPHENIDATE ER, METHYLPHENIDATE ER (LA), METHYLPHENIDATE HCL, METHYLPHENIDATE HCL CD, METHYLPHENIDATE HCL ER (CD), QUILLICHEW ER, QUILLIVANT XR, RELEXXII, RITALIN, RITALIN LA
Selected Serotonergic Opioids/Ziprasidone SEVERITY LEVEL: 3-Moderate Interaction: Assess the risk to the patient and take action as needed. MECHANISM OF ACTION: Concurrent use of serotonergic opioids such as meperidine or tramadol and antipsychotics such as ziprasidone may result in additive CNS depression or additive risk of serotonin syndrome.(1) CLINICAL EFFECTS: Concurrent use of serotonergic opioids such as meperidine or tramadol and antipsychotics such as ziprasidone may result in profound sedation, respiratory depression, coma, and/or death.(1) PREDISPOSING FACTORS: Concurrent use of alcohol or other CNS depressants may increase the risk of adverse effects. Serotonin syndrome risk is dose-related. Higher systemic concentrations of either drug would be predicted to increase risk for serotonin toxicity. Concomitant therapy with multiple agents which increase brain serotonin concentrations may also increase risk for serotonin syndrome.(2) PATIENT MANAGEMENT: Limit prescribing opioid analgesics such as meperidine or tramadol with CNS depressants such as antipsychotics, including ziprasidone, to patients for whom alternatives are inadequate.(1) If concurrent use is necessary, limit the dosages and duration of each drug to the minimum possible while achieving the desired clinical effect. If starting a CNS depressant (for an indication other than epilepsy) with an opioid analgesic, prescribe a lower initial dose of the CNS depressant than indicated in the absence of an opioid and titrate based upon clinical response. If an opioid analgesic is indicated in a patient already taking a CNS depressant, prescribe a lower dose of the opioid and titrate based upon clinical response.(1) Respiratory depression can occur at any time during opioid therapy, especially during therapy initiation and following dosage increases. Consider this risk when using concurrently with other agents that may cause CNS depression.(2) Monitor patients receiving concurrent therapy for unusual dizziness or lightheadedness, extreme sleepiness, slowed or difficult breathing, or unresponsiveness,(1) as well as for signs of serotonin syndrome. Discuss naloxone with all patients when prescribing or renewing an opioid analgesic or medicine to treat opioid use disorder (OUD). Consider prescribing naloxone to patients prescribed medicines to treat OUD or opioid analgesics (such as those taking CNS depressants) who are at increased risk of opioid overdose and when a patient has household members/close contacts at risk for accidental overdose.(3) DISCUSSION: A nested case-control study looked at the relationship between antipsychotic use and risk of acute respiratory failure. Current use of antipsychotics was associated with a 2.33-fold increase in risk of respiratory failure compared to no use of antipsychotics. The risk was also significantly increased in patients with recent use of antipsychotics (within the past 15-30 days, OR = 1.79) and recent past use (within 31-90 days OR = 1.41). The risk increased with higher doses and longer duration of use.(4) Between 2002 and 2014, the number of patients receiving an opioid analgesic increased 8%, from 75 million to 81 million patients, and the number of patients receiving a benzodiazepine increased 31%, from 23 million to 30 million patients. During this time, the proportion of patients receiving concurrent therapy increased 31%, from 23 million to 30 million patients.(5) From 2004 to 2011, the rate of nonmedical use-related emergency room visits involving both opioids and benzodiazepines increased from 11 to 34.2 per 100,000 and drug overdose deaths involving both opioids and benzodiazepines increased from 0.6 to 1.7 per 100,000. The proportion of prescription opioid analgesic deaths which also involved benzodiazepines increased from 18% to 31% during this time.(6) A prospective observational cohort study in North Carolina found that the rates of overdose death among patients co-dispensed opioid analgesics and benzodiazepines were 10 times higher than patients receiving opioid analgesics alone.(7) A case-cohort study of VA data from 2004-2009 found that the risk of death from overdose increased with concomitant opioid analgesics and benzodiazepines. Compared to patients with no history of benzodiazepines, patients with a history of benzodiazepine use (hazard ratio [HR] = 2.33) and patients with a current benzodiazepine prescription (HR=3.86) had an increased risk of fatal overdose.(8) A study found that opioid analgesics contributed to 77% of deaths in which benzodiazepines were determined to be a cause of death and that benzodiazepines contributed to 30% of deaths in which opioid analgesics were determined to be a cause of death. This study also found that other CNS depressants (including barbiturates, antipsychotic and neuroleptic drugs, antiepileptic and antiparkinsonian drugs, anesthetics, autonomic nervous system drugs, and muscle relaxants) were contributory to death in many cases where opioid analgesics were also implicated.(9) A study found that alcohol was involved in 18.5% of opioid analgesic abuse-related ED visits and 22.1 percent of opioid analgesic-related deaths.(10) Several cases of serotonin syndrome have been reported in patients receiving ziprasidone.(12-14)	GEODON, ZIPRASIDONE HCL, ZIPRASIDONE MESYLATE

The following contraindication information is available for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen):

Overview
Contraindicated
Severe
Moderate

Drug contraindication overview.

Tramadol is contraindicated in patients with substantial respiratory depression; acute or severe bronchial asthma in unmonitored settings or in the absence of resuscitative equipment; known or suspected GI obstruction, including paralytic ileus; or known hypersensitivity (e.g., anaphylaxis) to the drug, other opiates, or any ingredient in the formulation. Tramadol also is contraindicated during or within 14 days following treatment with an MAO inhibitor. Tramadol is contraindicated in children younger than 12 years of age for the management of pain and in those younger than 18 years of age for the management of postoperative pain following tonsillectomy and/or adenoidectomy. (See Cautions: Pediatric Precautions.)

There are 13 contraindications. Absolute contraindication.

Contraindication List
Acetaminophen overdose
Acute asthma attack
Acute hepatic failure
Acute hepatitis C
Adenoidectomy in pediatric patient
Alcohol intoxication
Benzodiazepine overdose
CYp2d6 poor metabolizer
CYp2d6 ultrarapid metabolizer
Gastrointestinal obstruction
Opioid overdose
Serotonin syndrome
Tonsillectomy in pediatric patient

There are 20 severe contraindications. Adequate patient monitoring is recommended for safer drug use.

Severe List
Alcohol use disorder
Alcohol withdrawal syndrome
Central nervous system infection
Chronic kidney disease stage 4 (severe) GFR 15-29 ml/min
Chronic kidney disease stage 5 (failure) GFr<15 ml/min
Depression
Disease of liver
Drug abuse
Exacerbation of chronic obstructive pulmonary disease
Familial dysautonomia
Intracranial hypertension
Lower seizure threshold
Obstructive sleep apnea syndrome
Protein-calorie malnutrition
Respiratory depression
Seizure disorder
Severe hepatic disease
Shock
Suicidal
Suicidal ideation

There are 4 moderate contraindications. Clinically significant contraindication, where the condition can be managed or treated before the drug may be given safely.

Moderate List
Adrenocortical insufficiency
CYp2d6 intermediate metabolizer
Hypoglycemic disorder
Hyponatremia

The following adverse reaction information is available for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen):

Overview
Severe
Less Severe

Adverse reaction overview.

No enhanced Common Adverse Effects information available for this drug.

There are 43 severe adverse reactions.

More Frequent	Less Frequent
None.	Abnormal hepatic function tests Respiratory depression

Rare/Very Rare
Abnormal ECG Accidental fall Accidental injury Acute generalized exanthematous pustulosis Acute hepatic failure Adrenocortical insufficiency Agranulocytosis Allergic dermatitis Anaphylaxis Androgen deficiency Anemia Angioedema Bronchospastic pulmonary disease Drug dependence Drug-induced hepatitis Dyspnea Hearing loss Hepatic failure Hepatitis Hypoglycemic disorder Hyponatremia Increased urinary frequency Laryngeal edema Leukopenia Maculopapular rash Myocardial ischemia Neutropenic disorder Peripheral ischemia Prolonged QT interval Pulmonary edema Pulmonary thromboembolism Seizure disorder Serotonin syndrome SIADH syndrome Sleep apnea Spasm of sphincter of oddi Stevens-johnson syndrome Suicidal Tachycardia Thrombocytopenic disorder Toxic epidermal necrolysis

Rare/Very Rare

Abnormal ECG
Accidental fall
Accidental injury
Acute generalized exanthematous pustulosis
Acute hepatic failure
Adrenocortical insufficiency
Agranulocytosis
Allergic dermatitis
Anaphylaxis
Androgen deficiency
Anemia
Angioedema
Bronchospastic pulmonary disease
Drug dependence
Drug-induced hepatitis
Dyspnea
Hearing loss
Hepatic failure
Hepatitis
Hypoglycemic disorder
Hyponatremia
Increased urinary frequency
Laryngeal edema
Leukopenia
Maculopapular rash
Myocardial ischemia
Neutropenic disorder
Peripheral ischemia
Prolonged QT interval
Pulmonary edema
Pulmonary thromboembolism
Seizure disorder
Serotonin syndrome
SIADH syndrome
Sleep apnea
Spasm of sphincter of oddi
Stevens-johnson syndrome
Suicidal
Tachycardia
Thrombocytopenic disorder
Toxic epidermal necrolysis

There are 83 less severe adverse reactions.

More Frequent	Less Frequent
Constipation Dizziness Drowsy Flushing Headache disorder Insomnia Nausea Pruritus of skin Vertigo Vomiting Xerostomia	Acute abdominal pain Acute cognitive impairment Anorexia Arthralgia Blurred vision Diarrhea Dyspepsia Flatulence General weakness Hyperhidrosis Hypertension Nervousness Orthostatic hypotension Skin rash Symptoms of anxiety Urinary retention Vasodilation of blood vessels

Rare/Very Rare
Agitation Anticholinergic toxicity Ataxia Bruising Cataracts Chills Cramps in legs Delirium Depersonalization Depression Dream disorder Dysgeusia Dysuria Ecchymosis Erectile dysfunction Erythema Euphoria Fever Flu-like symptoms Gastroenteritis Hallucinations Hematuria Hyperglycemia Hyperkinesis Hypertonia Hypotension Indifference Infertility Libido changes Medication overuse headache Menstrual disorder Miosis Mood changes Muscle fasciculation Myalgia Neck stiffness Night sweats Opioid induced allodynia Opioid induced hyperalgesia Palpitations Paresthesia Peripheral edema Pharyngitis Sinusitis Skin rash Sleep disorder Stomatitis Syncope Tinnitus Tremor Urinary tract infection Urticaria Visual changes Weight loss Yawning

Rare/Very Rare

Agitation
Anticholinergic toxicity
Ataxia
Bruising
Cataracts
Chills
Cramps in legs
Delirium
Depersonalization
Depression
Dream disorder
Dysgeusia
Dysuria
Ecchymosis
Erectile dysfunction
Erythema
Euphoria
Fever
Flu-like symptoms
Gastroenteritis
Hallucinations
Hematuria
Hyperglycemia
Hyperkinesis
Hypertonia
Hypotension
Indifference
Infertility
Libido changes
Medication overuse headache
Menstrual disorder
Miosis
Mood changes
Muscle fasciculation
Myalgia
Neck stiffness
Night sweats
Opioid induced allodynia
Opioid induced hyperalgesia
Palpitations
Paresthesia
Peripheral edema
Pharyngitis
Sinusitis
Skin rash
Sleep disorder
Stomatitis
Syncope
Tinnitus
Tremor
Urinary tract infection
Urticaria
Visual changes
Weight loss
Yawning

The following precautions are available for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen):

Pediatric
Pregnant
Lactation
Geriatric

No enhanced Pediatric Use information available for this drug.

Contraindicated

None

Severe Precaution

None

Management or Monitoring Precaution

None

Epidemiologic data regarding oral acetaminophen use in pregnant women have shown no increased risk of major congenital malformations in infants exposed in utero to the drug. In a large population-based prospective cohort study involving more than 26,000 women with live-born singleton infants who were exposed to oral acetaminophen during the first trimester of pregnancy, no increase in the risk of congenital malformations was observed in exposed children compared with a control group of unexposed children; the rate of congenital malformations (4.3%) was similar to the rate in the general population. A population-based, case-control study from the National Birth Defects Prevention Study also found no increase in the risk of major birth defects in a group of 11,610 children who had been exposed to acetaminophen during the first trimester of pregnancy compared with a control group of 4500 children.

Animal reproduction studies in pregnant rats given oral acetaminophen during organogenesis at dosages up to 0.85 times the maximum recommended human daily dosage (4 g daily, based on body surface area comparison) showed evidence of fetotoxicity (reduced fetal weight and length) and a dose-related increase in bone variations (reduced ossification and rudimentary rib changes); the offspring showed no evidence of external, visceral, or skeletal malformations. When pregnant rats received oral acetaminophen throughout gestation at a dosage of 1.2

times the maximum recommended human daily dosage, areas of necrosis occurred in both the liver and kidney of pregnant rats and fetuses; these effects did not occur in animals given acetaminophen at dosages of 0.3 times the maximum recommended human dosage. In a continuous breeding study in which pregnant mice were given acetaminophen at dosages approximately equivalent to 0.43,

0.87, or 1.7 times the maximum recommended human daily dosage (based on body surface area comparison), a dose-related reduction in body weight of the fourth and fifth litter offspring of the treated mating pair occurred during lactation and following weaning at all dosages studied.

Animals receiving the highest dosage had a reduced number of litters per mating pair, male offspring with an increased percentage of abnormal sperm, and reduced birth weights in the next-generation pups. Acetaminophen is commonly used during all stages of pregnancy for its analgesic and antipyretic effects. Although acetaminophen has been thought not to be associated with risk in offspring, some recent reports have questioned this assessment, especially with frequent maternal use or in cases involving genetic variability.

FDA reviewed data on a possible association between acetaminophen use during pregnancy and risk of attention deficit hyperactivity disorder (ADHD) in children and announced in January 2015 that the data were inconclusive. Some experts state that as with all drug use during pregnancy, routine use of acetaminophen should be avoided. The manufacturer states that there are no studies of IV acetaminophen in pregnant women and animal reproduction studies have not been conducted with this preparation.

Therefore, the manufacturer states that IV acetaminophen should be used during pregnancy only when clearly needed. Because there are no adequate and well-controlled studies of IV acetaminophen during labor and delivery, the manufacturer states that IV acetaminophen should be used in this setting only after careful assessment of potential benefits and risks. Prolonged maternal use of opiate agonists during pregnancy can result in neonatal opiate withdrawal syndrome with manifestations of irritability, hyperactivity and abnormal sleep pattern, high-pitched cry, tremor, vomiting, diarrhea, and failure to gain weight.

In contrast to adults, the withdrawal syndrome in neonates may be life-threatening if not recognized and treated, and requires management according to protocols developed by neonatology experts. Women who require prolonged opiate agonist therapy during pregnancy should be advised of the risk of neonatal opiate withdrawal syndrome, and availability of appropriate treatment should be ensured. The onset, duration, and severity of the syndrome vary depending on the specific opiate agonist used, duration of use, timing and amount of last maternal use, and rate of drug elimination by the neonate.

Neonatal seizures, neonatal withdrawal syndrome, fetal death, and stillbirth have been reported with tramadol during postmarketing experience. The effect of tramadol, if any, on the later growth, development, and functional maturation of the child is unknown. Use of opiates in pregnant women during labor can result in neonatal respiratory depression.

Use of tramadol is not recommended immediately before or during labor, when other analgesic techniques may be more appropriate. Opiate agonists may prolong labor through actions that temporarily reduce the strength, duration, and frequency of uterine contractions. However, this effect is inconsistent and may be offset by an increased rate of cervical dilatation, which tends to shorten labor.

Neonates exposed to opiates during labor should be monitored for excessive sedation and respiratory depression. An opiate antagonist must be available for reversal of opiate-induced respiratory depression. Tramadol has been shown to cross the placenta.

The mean ratio of serum tramadol in the umbilical veins compared with maternal veins was 0.83 for women given tramadol during labor. Analysis of data from the National Birth Defects Prevention Study, a large population-based, case-control study, suggests that therapeutic maternal use of opiate agonists during the period of organogenesis is associated with a low absolute risk of birth defects, including heart defects, spina bifida, and gastroschisis.

The manufacturers state that available data regarding use of tramadol in pregnant women are insufficient to establish the risk of major birth defects and spontaneous abortion with the drug. Based on animal data, women of childbearing potential should be advised of the potential for tramadol to cause fetal harm. Although there are no adequate and controlled studies to date in humans, tramadol has been shown to be embryotoxic and fetotoxic in mice, rats, and rabbits at maternally toxic doses 1.4,

0.6, and 3.6 times, respectively, the maximum daily human dosage (120 mg/kg in mice, 25 mg/kg in rats, and 75 mg/kg in rabbits).

Embryo and fetal toxicity consisted mainly of decreased fetal weights, decreased skeletal ossification, and increased supernumerary ribs at maternally toxic dose levels. Transient delays in developmental or behavioral parameters also were seen in pups from rat dams allowed to deliver. Embryo and fetal lethality was reported in only one rabbit study, in which rabbits received tramadol hydrochloride 300 mg/kg, a dose that would cause extreme maternal toxicity in rabbits.

Embryotoxicity and fetotoxicity have been demonstrated in rats when tramadol and acetaminophen were administered in fixed combination at maternally toxic doses of 50 and 434 mg/kg, respectively, or 1.6 times the maximum daily human dosages of these drugs. Embryonic and fetal toxicity consisted of decreased fetal weights and increased supernumerary ribs.

Tramadol was not teratogenic in mice, rats, and rabbits at maternally toxic doses 1.4, 0.6, and 3.6

times, respectively, the maximum human daily dosage (120 mg/kg in mice, 25 mg/kg in rats, and 75 mg/kg in rabbits). No drug-related teratogenic effects were observed in progeny of mice, rats, or rabbits receiving tramadol (up to 140, 80, or 300 mg/kg or 1.7, 1.9, or 14.6 times, respectively, the maximum daily human dosage) by various routes. Tramadol and acetaminophen in fixed combination was not teratogenic in rats at a maternally toxic dose of 50 and 434 mg/kg, respectively, or 1.6

times the maximum daily human dosages of these drugs. In perinatal and postnatal studies in rats, progeny of dams receiving oral (gavage) tramadol hydrochloride doses of 50 mg/kg or higher had decreased weights, and pup survival was decreased early in lactation at tramadol hydrochloride doses of 80 mg/kg (1.2-1.6 or 1.9-2.6 times, respectively, the maximum human dose). No toxicity was observed for progeny of dams receiving doses of 8, 10, 20, 25, or 40 mg/kg. Maternal toxicity was observed at all dose levels, but effects on progeny were evident only at higher dose levels where maternal toxicity was more severe.

Acetaminophen is distributed into human milk in small quantities after oral administration. Data from more than 15 nursing women suggest that approximately 1-2% of the maternal daily dosage would be ingested by a nursing infant. A case of maculopapular rash in a breast-fed infant has been reported; the rash resolved when the mother discontinued acetaminophen use and recurred when she resumed acetaminophen therapy.

The American Academy of Pediatrics and other experts state that acetaminophen is an acceptable choice for use in nursing women. The manufacturer states that IV acetaminophen should be used with caution in nursing women. Tramadol is distributed into milk.

Following a single IV tramadol dose of 100 mg, the cumulative distribution into milk within 16 hours after dosing was 100 mcg of tramadol (0.1% of the maternal dose) and 27 mcg of M1. Because the safety of tramadol in infants and neonates has not been established, the drug is not recommended for obstetrical preoperative medication or for use in nursing women, including use for post-delivery analgesia. FDA review of available medical literature did not reveal evidence of an increased frequency of adverse effects in nursing infants of women receiving tramadol; however, because the drug is distributed into milk and has similar risks as codeine in ultrarapid metabolizers of CYP2D6 substrates, FDA recommends that tramadol not be used in nursing women.

(See Pharmacogenomics under Cautions: Precautions and Contraindications. Also see Cautions: Precautions and Contraindications, in Codeine Phosphate and Codeine Sulfate 28:08.08.) Infants exposed to tramadol through breast milk should be monitored closely for clinical manifestations of opiate toxicity (e.g., sedation, difficulty breast-feeding or breathing, hypotonia). If clinical manifestations of opiate toxicity occur, caregivers should seek immediate medical treatment for the infant. Symptoms of withdrawal can occur in opiate-dependent infants when maternal administration of opiates is discontinued or breast-feeding is stopped.

No enhanced Geriatric Use information available for this drug.

The following prioritized warning is available for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen):

WARNING: Tramadol/acetaminophen has a risk for abuse and addiction, which can lead to overdose and death. Tramadol/acetaminophen may also cause severe, possibly fatal, breathing problems. To lower your risk, your doctor should have you take the smallest dose of tramadol/acetaminophen that works, and take it for the shortest possible time.

See also How to Use section for more information about addiction. Ask your doctor or pharmacist if you should have naloxone available to treat opioid overdose. Teach your family or household members about the signs of an opioid overdose and how to treat it.

The risk for severe breathing problems is higher when you start this medication and after a dose increase, or if you take the wrong dose/strength. Taking this medication with alcohol or other drugs that can cause drowsiness or breathing problems may cause very serious side effects, including death. Also, other medications can affect the removal of tramadol/acetaminophen from your body, which may affect how tramadol/acetaminophen works.

Be sure you know how to take tramadol/acetaminophen and what other drugs you should avoid taking with it. See also Drug Interactions section. Get medical help right away if any of these very serious side effects occur: slow/shallow breathing, unusual lightheadedness, severe drowsiness/dizziness, difficulty waking up.

Keep this medicine in a safe place to prevent theft, misuse, or abuse. If someone accidentally swallows this drug, get medical help right away. One ingredient in this product is acetaminophen.

Taking too much acetaminophen may cause serious (possibly fatal) liver disease. Adults should not take more than 4000 milligrams (4 grams) of acetaminophen a day. People with liver problems and children should take less acetaminophen.

Ask your doctor or pharmacist how much acetaminophen is safe to take. Do not use with any other drug containing acetaminophen without asking your doctor or pharmacist first. Acetaminophen is in many nonprescription and prescription medications (such as pain/fever drugs or cough-and-cold products).

Check the labels on all your medicines to see if they contain acetaminophen, and ask your pharmacist if you are unsure. Get medical help right away if you take too much acetaminophen (overdose), even if you feel well. Overdose symptoms may include nausea, vomiting, loss of appetite, sweating, stomach/abdominal pain, extreme tiredness, yellowing eyes/skin, and dark urine.

Daily alcohol use, especially when combined with acetaminophen, may damage your liver. Avoid alcohol. Before using this medication, women of childbearing age should talk with their doctor(s) about the risks and benefits.

Tell your doctor if you are pregnant or if you plan to become pregnant. During pregnancy, this medication should be used only when clearly needed. It may slightly increase the risk of birth defects if used during the first two months of pregnancy.

Also, using it for a long time or in high doses near the expected delivery date may harm the unborn baby. To lessen the risk, take the smallest effective dose for the shortest possible time. Babies born to mothers who use this drug for a long time may develop severe (possibly fatal) withdrawal symptoms.

Tell the doctor right away if you notice any symptoms in your newborn baby such as crying that doesn't stop, slow/shallow breathing, irritability, shaking, vomiting, diarrhea, poor feeding, or difficulty gaining weight. Children younger than 18 years should not use products that contain tramadol. Some children are more sensitive to tramadol and have had very serious (rarely fatal) breathing problems such as slow/shallow breathing (see also Side Effects section).

The risk is greater in children who are obese or have breathing problems, or after certain surgeries (including tonsil/adenoid removal). Talk with your doctor or pharmacist about the risks and benefits of this medication.

The following icd codes are available for TRAMADOL HCL-ACETAMINOPHEN (tramadol hcl/acetaminophen)'s list of indications:

Pain
G43	Migraine
G43.0	Migraine without aura
G43.00	Migraine without aura, not intractable
G43.001	Migraine without aura, not intractable, with status migrainosus
G43.009	Migraine without aura, not intractable, without status migrainosus
G43.01	Migraine without aura, intractable
G43.011	Migraine without aura, intractable, with status migrainosus
G43.019	Migraine without aura, intractable, without status migrainosus
G43.1	Migraine with aura
G43.10	Migraine with aura, not intractable
G43.101	Migraine with aura, not intractable, with status migrainosus
G43.109	Migraine with aura, not intractable, without status migrainosus
G43.11	Migraine with aura, intractable
G43.111	Migraine with aura, intractable, with status migrainosus
G43.119	Migraine with aura, intractable, without status migrainosus
G43.4	Hemiplegic migraine
G43.40	Hemiplegic migraine, not intractable
G43.401	Hemiplegic migraine, not intractable, with status migrainosus
G43.409	Hemiplegic migraine, not intractable, without status migrainosus
G43.41	Hemiplegic migraine, intractable
G43.411	Hemiplegic migraine, intractable, with status migrainosus
G43.419	Hemiplegic migraine, intractable, without status migrainosus
G43.5	Persistent migraine aura without cerebral infarction
G43.50	Persistent migraine aura without cerebral infarction, not intractable
G43.501	Persistent migraine aura without cerebral infarction, not intractable, with status migrainosus
G43.509	Persistent migraine aura without cerebral infarction, not intractable, without status migrainosus
G43.51	Persistent migraine aura without cerebral infarction, intractable
G43.511	Persistent migraine aura without cerebral infarction, intractable, with status migrainosus
G43.519	Persistent migraine aura without cerebral infarction, intractable, without status migrainosus
G43.6	Persistent migraine aura with cerebral infarction
G43.60	Persistent migraine aura with cerebral infarction, not intractable
G43.601	Persistent migraine aura with cerebral infarction, not intractable, with status migrainosus
G43.609	Persistent migraine aura with cerebral infarction, not intractable, without status migrainosus
G43.61	Persistent migraine aura with cerebral infarction, intractable
G43.611	Persistent migraine aura with cerebral infarction, intractable, with status migrainosus
G43.619	Persistent migraine aura with cerebral infarction, intractable, without status migrainosus
G43.7	Chronic migraine without aura
G43.70	Chronic migraine without aura, not intractable
G43.701	Chronic migraine without aura, not intractable, with status migrainosus
G43.709	Chronic migraine without aura, not intractable, without status migrainosus
G43.71	Chronic migraine without aura, intractable
G43.711	Chronic migraine without aura, intractable, with status migrainosus
G43.719	Chronic migraine without aura, intractable, without status migrainosus
G43.8	Other migraine
G43.80	Other migraine, not intractable
G43.801	Other migraine, not intractable, with status migrainosus
G43.809	Other migraine, not intractable, without status migrainosus
G43.81	Other migraine, intractable
G43.811	Other migraine, intractable, with status migrainosus
G43.819	Other migraine, intractable, without status migrainosus
G43.82	Menstrual migraine, not intractable
G43.821	Menstrual migraine, not intractable, with status migrainosus
G43.829	Menstrual migraine, not intractable, without status migrainosus
G43.83	Menstrual migraine, intractable
G43.831	Menstrual migraine, intractable, with status migrainosus
G43.839	Menstrual migraine, intractable, without status migrainosus
G43.9	Migraine, unspecified
G43.90	Migraine, unspecified, not intractable
G43.901	Migraine, unspecified, not intractable, with status migrainosus
G43.909	Migraine, unspecified, not intractable, without status migrainosus
G43.91	Migraine, unspecified, intractable
G43.911	Migraine, unspecified, intractable, with status migrainosus
G43.919	Migraine, unspecified, intractable, without status migrainosus
G43.B	Ophthalmoplegic migraine
G43.B0	Ophthalmoplegic migraine, not intractable
G43.B1	Ophthalmoplegic migraine, intractable
G43.C	Periodic headache syndromes in child or adult
G43.C0	Periodic headache syndromes in child or adult, not intractable
G43.C1	Periodic headache syndromes in child or adult, intractable
G43.D	Abdominal migraine
G43.D0	Abdominal migraine, not intractable
G43.D1	Abdominal migraine, intractable
G43.E	Chronic migraine with aura
G43.E0	Chronic migraine with aura, not intractable
G43.E01	Chronic migraine with aura, not intractable, with status migrainosus
G43.E09	Chronic migraine with aura, not intractable, without status migrainosus
G43.E1	Chronic migraine with aura, intractable
G43.E11	Chronic migraine with aura, intractable, with status migrainosus
G43.E19	Chronic migraine with aura, intractable, without status migrainosus
G44	Other headache syndromes
G44.00	Cluster headache syndrome, unspecified
G44.001	Cluster headache syndrome, unspecified, intractable
G44.009	Cluster headache syndrome, unspecified, not intractable
G44.01	Episodic cluster headache
G44.011	Episodic cluster headache, intractable
G44.019	Episodic cluster headache, not intractable
G44.02	Chronic cluster headache
G44.021	Chronic cluster headache, intractable
G44.029	Chronic cluster headache, not intractable
G44.03	Episodic paroxysmal hemicrania
G44.031	Episodic paroxysmal hemicrania, intractable
G44.039	Episodic paroxysmal hemicrania, not intractable
G44.04	Chronic paroxysmal hemicrania
G44.041	Chronic paroxysmal hemicrania, intractable
G44.049	Chronic paroxysmal hemicrania, not intractable
G44.05	Short lasting unilateral neuralgiform headache with conjunctival injection and tearing (SUNCt)
G44.051	Short lasting unilateral neuralgiform headache with conjunctival injection and tearing (SUNCt), intractable
G44.059	Short lasting unilateral neuralgiform headache with conjunctival injection and tearing (SUNCt), not intractable
G44.1	Vascular headache, not elsewhere classified
G44.2	Tension-type headache
G44.20	Tension-type headache, unspecified
G44.201	Tension-type headache, unspecified, intractable
G44.209	Tension-type headache, unspecified, not intractable
G44.21	Episodic tension-type headache
G44.211	Episodic tension-type headache, intractable
G44.219	Episodic tension-type headache, not intractable
G44.22	Chronic tension-type headache
G44.221	Chronic tension-type headache, intractable
G44.229	Chronic tension-type headache, not intractable
G44.3	Post-traumatic headache
G44.30	Post-traumatic headache, unspecified
G44.301	Post-traumatic headache, unspecified, intractable
G44.309	Post-traumatic headache, unspecified, not intractable
G44.31	Acute post-traumatic headache
G44.311	Acute post-traumatic headache, intractable
G44.319	Acute post-traumatic headache, not intractable
G44.32	Chronic post-traumatic headache
G44.321	Chronic post-traumatic headache, intractable
G44.329	Chronic post-traumatic headache, not intractable
G44.4	Drug-induced headache, not elsewhere classified
G44.40	Drug-induced headache, not elsewhere classified, not intractable
G44.41	Drug-induced headache, not elsewhere classified, intractable
G44.5	Complicated headache syndromes
G44.51	Hemicrania continua
G44.52	New daily persistent headache (NDPh)
G44.53	Primary thunderclap headache
G44.59	Other complicated headache syndrome
G44.8	Other specified headache syndromes
G44.81	Hypnic headache
G44.82	Headache associated with sexual activity
G44.83	Primary cough headache
G44.84	Primary exertional headache
G44.85	Primary stabbing headache
G44.86	Cervicogenic headache
G44.89	Other headache syndrome
G50.1	Atypical facial pain
G89	Pain, not elsewhere classified
G89.0	Central pain syndrome
G89.1	Acute pain, not elsewhere classified
G89.11	Acute pain due to trauma
G89.12	Acute post-thoracotomy pain
G89.18	Other acute postprocedural pain
G89.2	Chronic pain, not elsewhere classified
G89.21	Chronic pain due to trauma
G89.22	Chronic post-thoracotomy pain
G89.28	Other chronic postprocedural pain
G89.29	Other chronic pain
G89.3	Neoplasm related pain (acute) (chronic)
G89.4	Chronic pain syndrome
G90.5	Complex regional pain syndrome I (CRPS i)
G90.50	Complex regional pain syndrome i, unspecified
G90.51	Complex regional pain syndrome I of upper limb
G90.511	Complex regional pain syndrome I of right upper limb
G90.512	Complex regional pain syndrome I of left upper limb
G90.513	Complex regional pain syndrome I of upper limb, bilateral
G90.519	Complex regional pain syndrome I of unspecified upper limb
G90.52	Complex regional pain syndrome I of lower limb
G90.521	Complex regional pain syndrome I of right lower limb
G90.522	Complex regional pain syndrome I of left lower limb
G90.523	Complex regional pain syndrome I of lower limb, bilateral
G90.529	Complex regional pain syndrome I of unspecified lower limb
G90.59	Complex regional pain syndrome I of other specified site
H57.1	Ocular pain
H57.10	Ocular pain, unspecified eye
H57.11	Ocular pain, right eye
H57.12	Ocular pain, left eye
H57.13	Ocular pain, bilateral
H92	Otalgia and effusion of ear
H92.0	Otalgia
H92.01	Otalgia, right ear
H92.02	Otalgia, left ear
H92.03	Otalgia, bilateral
H92.09	Otalgia, unspecified ear
K14.6	Glossodynia
M25.5	Pain in joint
M25.50	Pain in unspecified joint
M25.51	Pain in shoulder
M25.511	Pain in right shoulder
M25.512	Pain in left shoulder
M25.519	Pain in unspecified shoulder
M25.52	Pain in elbow
M25.521	Pain in right elbow
M25.522	Pain in left elbow
M25.529	Pain in unspecified elbow
M25.53	Pain in wrist
M25.531	Pain in right wrist
M25.532	Pain in left wrist
M25.539	Pain in unspecified wrist
M25.54	Pain in joints of hand
M25.541	Pain in joints of right hand
M25.542	Pain in joints of left hand
M25.549	Pain in joints of unspecified hand
M25.55	Pain in hip
M25.551	Pain in right hip
M25.552	Pain in left hip
M25.559	Pain in unspecified hip
M25.56	Pain in knee
M25.561	Pain in right knee
M25.562	Pain in left knee
M25.569	Pain in unspecified knee
M25.57	Pain in ankle and joints of foot
M25.571	Pain in right ankle and joints of right foot
M25.572	Pain in left ankle and joints of left foot
M25.579	Pain in unspecified ankle and joints of unspecified foot
M25.59	Pain in other specified joint
M26.62	Arthralgia of temporomandibular joint
M26.621	Arthralgia of right temporomandibular joint
M26.622	Arthralgia of left temporomandibular joint
M26.623	Arthralgia of bilateral temporomandibular joint
M26.629	Arthralgia of temporomandibular joint, unspecified side
M54	Dorsalgia
M54.2	Cervicalgia
M54.4	Lumbago with sciatica
M54.40	Lumbago with sciatica, unspecified side
M54.41	Lumbago with sciatica, right side
M54.42	Lumbago with sciatica, left side
M54.5	Low back pain
M54.50	Low back pain, unspecified
M54.51	Vertebrogenic low back pain
M54.59	Other low back pain
M54.6	Pain in thoracic spine
M54.8	Other dorsalgia
M54.89	Other dorsalgia
M54.9	Dorsalgia, unspecified
M77.4	Metatarsalgia
M77.40	Metatarsalgia, unspecified foot
M77.41	Metatarsalgia, right foot
M77.42	Metatarsalgia, left foot
M79.1	Myalgia
M79.10	Myalgia, unspecified site
M79.11	Myalgia of mastication muscle
M79.12	Myalgia of auxiliary muscles, head and neck
M79.18	Myalgia, other site
M79.6	Pain in limb, hand, foot, fingers and toes
M79.60	Pain in limb, unspecified
M79.601	Pain in right arm
M79.602	Pain in left arm
M79.603	Pain in arm, unspecified
M79.604	Pain in right leg
M79.605	Pain in left leg
M79.606	Pain in leg, unspecified
M79.609	Pain in unspecified limb
M79.62	Pain in upper arm
M79.621	Pain in right upper arm
M79.622	Pain in left upper arm
M79.629	Pain in unspecified upper arm
M79.63	Pain in forearm
M79.631	Pain in right forearm
M79.632	Pain in left forearm
M79.639	Pain in unspecified forearm
M79.64	Pain in hand and fingers
M79.641	Pain in right hand
M79.642	Pain in left hand
M79.643	Pain in unspecified hand
M79.644	Pain in right finger(s)
M79.645	Pain in left finger(s)
M79.646	Pain in unspecified finger(s)
M79.65	Pain in thigh
M79.651	Pain in right thigh
M79.652	Pain in left thigh
M79.659	Pain in unspecified thigh
M79.66	Pain in lower leg
M79.661	Pain in right lower leg
M79.662	Pain in left lower leg
M79.669	Pain in unspecified lower leg
M79.67	Pain in foot and toes
M79.671	Pain in right foot
M79.672	Pain in left foot
M79.673	Pain in unspecified foot
M79.674	Pain in right toe(s)
M79.675	Pain in left toe(s)
M79.676	Pain in unspecified toe(s)
N23	Unspecified renal colic
N64.4	Mastodynia
N94	Pain and other conditions associated with female genital organs and menstrual cycle
N94.0	Mittelschmerz
N94.3	Premenstrual tension syndrome
N94.4	Primary dysmenorrhea
N94.5	Secondary dysmenorrhea
N94.6	Dysmenorrhea, unspecified
R07	Pain in throat and chest
R07.0	Pain in throat
R07.1	Chest pain on breathing
R07.2	Precordial pain
R07.81	Pleurodynia
R07.82	Intercostal pain
R07.89	Other chest pain
R07.9	Chest pain, unspecified
R10	Abdominal and pelvic pain
R10.0	Acute abdomen
R10.1	Pain localized to upper abdomen
R10.10	Upper abdominal pain, unspecified
R10.11	Right upper quadrant pain
R10.12	Left upper quadrant pain
R10.2	Pelvic and perineal pain
R10.3	Pain localized to other parts of lower abdomen
R10.30	Lower abdominal pain, unspecified
R10.31	Right lower quadrant pain
R10.32	Left lower quadrant pain
R10.33	Periumbilical pain
R10.8	Other abdominal pain
R10.83	Colic
R10.84	Generalized abdominal pain
R10.9	Unspecified abdominal pain
R51	Headache
R51.0	Headache with orthostatic component, not elsewhere classified
R51.9	Headache, unspecified
R52	Pain, unspecified
R68.84	Jaw pain
T82.84	Pain due to cardiac and vascular prosthetic devices, implants and grafts
T82.847	Pain due to cardiac prosthetic devices, implants and grafts
T82.847A	Pain due to cardiac prosthetic devices, implants and grafts, initial encounter
T82.847D	Pain due to cardiac prosthetic devices, implants and grafts, subsequent encounter
T82.848	Pain due to vascular prosthetic devices, implants and grafts
T82.848A	Pain due to vascular prosthetic devices, implants and grafts, initial encounter
T82.848D	Pain due to vascular prosthetic devices, implants and grafts, subsequent encounter
T83.84	Pain due to genitourinary prosthetic devices, implants and grafts
T83.84xA	Pain due to genitourinary prosthetic devices, implants and grafts, initial encounter
T83.84xD	Pain due to genitourinary prosthetic devices, implants and grafts, subsequent encounter
T84.84	Pain due to internal orthopedic prosthetic devices, implants and grafts
T84.84xA	Pain due to internal orthopedic prosthetic devices, implants and grafts, initial encounter
T84.84xD	Pain due to internal orthopedic prosthetic devices, implants and grafts, subsequent encounter
T85.84	Pain due to internal prosthetic devices, implants and grafts, not elsewhere classified
T85.840	Pain due to nervous system prosthetic devices, implants and grafts
T85.840A	Pain due to nervous system prosthetic devices, implants and grafts, initial encounter
T85.840D	Pain due to nervous system prosthetic devices, implants and grafts, subsequent encounter
T85.848	Pain due to other internal prosthetic devices, implants and grafts
T85.848A	Pain due to other internal prosthetic devices, implants and grafts, initial encounter
T85.848D	Pain due to other internal prosthetic devices, implants and grafts, subsequent encounter