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Drug Interactions between IsonaRif and methadone

This report displays the potential drug interactions for the following 2 drugs:

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Major

rifAMPin methadone

Applies to: IsonaRif (isoniazid / rifampin) and methadone

MONITOR CLOSELY: Coadministration with inducers of various CYP450 isoenzymes may decrease the plasma concentrations of methadone, which is metabolized by CYP450 3A4, 2B6, 2C19, 2C9, and 2D6. Reduced analgesic efficacy or withdrawal symptoms may occur in patients maintained on methadone following the addition of an inducer. Conversely, discontinuation of the inducer may increase methadone plasma concentrations and potentiate the risk of overdose and fatal respiratory depression. The interaction has been reported with several moderate and potent inducers including rifampin, phenytoin, phenobarbital, nevirapine, and efavirenz. In one report, evidence of withdrawal was observed in 21 of 30 patients maintained on methadone who received rifampin for tuberculosis, compared to zero out of 26 who received other antituberculous agents. In a study of 11 patients on stable methadone maintenance treatment, mean methadone peak plasma concentration (Cmax) and systemic exposure (AUC) decreased by 48% and 57%, respectively, following initiation of antiretroviral therapy containing efavirenz 600 mg once a day. Nine patients developed symptoms consistent with methadone withdrawal an average of 8 to 10 days after start of efavirenz, which required a 22% mean increase in methadone dosage. In a similar study with nevirapine given at 200 mg once daily for 2 weeks followed by 200 mg twice daily, the reduction in mean methadone Cmax and AUC was 36% and 52%, respectively, in 8 patients stabilized on methadone treatment. Withdrawal symptoms occurred in six patients 8 to 10 days after start of nevirapine, and methadone dosage was subsequently increased an average of 16%. Dosage increases of up to 100% and eventual discontinuation of the non-nucleoside reverse-transcriptase inhibitor have also been described in some reports.

MANAGEMENT: Caution is advised if methadone is prescribed with CYP450 2B6, 2C19, 2C9 and/or 3A4 inducers. Pharmacologic response to methadone should be monitored more closely whenever an inducer is added to or withdrawn from therapy, and the dosage adjusted as necessary.

References

  1. Holmes VF (1991) "Rifampin-induced methadone withdrawal in AIDS." J Clin Psychopharmacol, 10, p. 443-4
  2. Liu S-J, Wang RI (1984) "Case report of barbiturate-induced enhancement of methadone metabolism and withdrawal syndrome." Am J Psychiatry, 141, p. 1287-8
  3. Bell J, Seres V, Bowron P, Lewis J, Batey R (1988) "The use of serum methadone levels in patients receiving methadone maintenance." Clin Pharmacol Ther, 43, p. 623-9
  4. Finelli PF (1976) "Phenytoin and methadone tolerance." N Engl J Med, 294, p. 227
  5. Tong TG, Pond SM, Kreek MJ, et al. (1981) "Phenytoin-induced methadone withdrawal." Ann Intern Med, 94, p. 349-51
  6. Kreek MJ, Garfield JW, Gutjahr CL, Giusti LM (1976) "Rifampin-induced methadone withdrawal." N Engl J Med, 294, p. 1104-6
  7. Bending MR, Skacel PO (1977) "Rifampicin and methadone withdrawal." Lancet, 1, p. 1211
  8. Raistrick D, Hay A, Wolff K (1996) "Methadone maintenance and tuberculosis treatment." BMJ, 313, p. 925-6
  9. Altice FL, Friedland GH, Cooney EL (1999) "Nevirapine induced opiate withdrawal among injection drug users with HIV infection receiving methadone." AIDS, 13, p. 957-62
  10. Otero MJ, Fuertes A, Sanchez R, Luna G (1999) "Nevirapine-induced withdrawal symptoms in HIV patients on methadone maintenance programme: an alert." AIDS, 13, p. 1004-5
  11. Pinzani V, Faucherre V, Peyriere H, Blayac JP (2000) "Methadone withdrawal symptoms with nevirapine and efavirenz." Ann Pharmacother, 34, p. 405-7
  12. (2007) "Product Information. Diskets (methadone)." Cebert Pharmaceuticals Inc
View all 12 references

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Major

rifAMPin isoniazid

Applies to: IsonaRif (isoniazid / rifampin) and IsonaRif (isoniazid / rifampin)

MONITOR CLOSELY: The risk of hepatotoxicity is greater when rifampin and isoniazid (INH) are given concomitantly, than when either drug is given alone. The proposed mechanism is rifampin's induction of isoniazid hydrolase, an enzyme involved in the conversion of INH to isonicotinic acid and hydrazine. Hydrazine is the proposed toxic metabolite of INH, which has been shown in animal studies to cause steatosis, hepatocyte vacuolation and glutathione depletion. Some studies have also shown that slow acetylators have a two-fold increased risk of developing antituberculosis drug-induced hepatotoxicity (ATDH) as compared with fast acetylators due to more available INH for direct hydrolysis to hydrazine. Theoretically, a similar reaction may occur with rifabutin and isoniazid. Additional risk factors for developing hepatotoxicity include patients with advanced age, malnutrition, existing hepatic impairment, daily alcohol consumption, female gender, HIV infection, extra-pulmonary tuberculosis and/or patients who are taking other potent CYP450-inducing agents.

MANAGEMENT: Caution and close monitoring should be considered if isoniazid (INH) is coadministered with rifampin or rifabutin. In cases where coadministration is required, careful monitoring of liver function, especially ALT and AST, should be done at baseline and then every 2 to 4 weeks during therapy, or in accordance with individual product labeling. Some manufacturers of INH recommend strongly considering its discontinuation if serum aminotransferase concentrations (AST or SGOT, ALT or SGPT) exceed 3 to 5 times the upper limit of normal. Product labeling for rifampin also recommends the immediate discontinuation of therapy if hepatic damage is suspected. INH product labeling suggests alternate drugs be used if hepatitis is attributed to INH in patients with tuberculosis. However, if INH must be used, it should only be resumed after the patient's symptoms and laboratory abnormalities have cleared. It should also be restarted in very small, gradually increasing doses and immediately withdrawn if there is any indication of recurrent liver involvement. Patients should be counseled to immediately report signs or symptoms consistent with liver damage and notified that prodromal symptoms usually consist of fatigue, weakness, malaise, anorexia, nausea, and/or vomiting.

References

  1. O'Brien RJ, Long MW, Cross FS, et al. (1983) "Hepatotoxicity from isoniazid and rifampin among children treated for tuberculosis." Pediatrics, 72, p. 491-9
  2. Kumar A, Misra PK, Mehotra R, et al. (1991) "Hepatotoxicity of rifampin and isoniazid." Am Rev Respir Dis, 143, p. 1350-2
  3. Abadie-Kemmerly S, Pankey GA, Dalvisio JR (1988) "Failure of ketoconazole treatment of blastomyces dermatidis due to interaction of isoniazid and rifampin." Ann Intern Med, 109, p. 844-5
  4. Acocella G, Bonollo L, Garimoldi M, et al. (1972) "Kinetics of rifampicin and isoniazid administered alone and in combination to normal subjects and patients with liver disease." Gut, 13, p. 47-53
  5. Yamamoto T, Suou T, Hirayama C (1986) "Elevated serum aminotransferase induced by isoniazid in relation to isoniazid acetylator phenotype." Hepatology, 6, p. 295-8
  6. Steele MA, Burk RF, Des Prez RM (1991) "Toxic hepatitis with isoniazid and rifampin." Chest, 99, p. 465-71
  7. "Product Information. INH (isoniazid)." Ciba Pharmaceuticals, Summit, NJ.
  8. Sarma G, Immanuel C, Kailasam S, Narayana AS, Venkatesan P (1986) "Rifampin-induced release of hydrazine from isoniazid." Am Rev Respir Dis, 133, p. 1072-5
  9. (2001) "Product Information. Mycobutin (rifabutin)." Pharmacia and Upjohn
  10. (2001) "Product Information. Rifadin (rifampin)." Hoechst Marion Roussel
  11. Askgaard DS, Wilcke T, Dossing M (1995) "Hepatotoxicity caused by the combined action of isoniazid and rifampicin." Thorax, 50, p. 213-4
  12. Cerner Multum, Inc. "UK Summary of Product Characteristics."
  13. Canadian Pharmacists Association (2006) e-CPS. http://www.pharmacists.ca/function/Subscriptions/ecps.cfm?link=eCPS_quikLink
  14. Cerner Multum, Inc. "Australian Product Information."
  15. (2023) "Product Information. Isoniazid (isoniazid)." Chartwell RX, LLC.
  16. (2023) "Product Information. Isoniazid (Arrotex) (isoniazid)." Arrotex Pharmaceuticals Pty Ltd
  17. (2023) "Product Information. Isoniazid (isoniazid)." RPH Pharmaceuticals AB
  18. Sarma GR, Immanual C, Kailasam S, Narayana AS, Venkatesan P (2024) Rifampin-induced release of hydrazine from isoniazid. A possible cause of hepatitis during treatment of tuberculosis with regimens containing isoniazid and rifampin https://pubmed.ncbi.nlm.nih.gov/3717759/
  19. Tostmann A, Boeree MJ, Aarnoutse RE, De Lange WCM, Van Der Ven AJAM, Dekhuijzen R (2024) Antituberculosis drug-induced hepatotoxicity: concise up-to-date review https://onlinelibrary.wiley.com/doi/10.1111/j.1440-1746.2007.05207.x
  20. (2021) "Product Information. Isotamine (isoniazid)." Bausch Health, Canada Inc.
  21. (2022) "Product Information. Rifampin (rifAMPin)." Akorn Inc
  22. (2022) "Product Information. Rifampicin (rifampicin)." Mylan Pharmaceuticals Inc
  23. (2023) "Product Information. Rifadin (rifampicin)." Sanofi
  24. (2024) "Product Information. Rifadin (rifaMPICin)." Sanofi-Aventis Australia Pty Ltd
  25. (2019) "Product Information. Rofact (rifampin)." Bausch Health, Canada Inc.
View all 25 references

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Moderate

methadone isoniazid

Applies to: methadone and IsonaRif (isoniazid / rifampin)

MONITOR: Coadministration with inhibitors of CYP450 3A4 may increase the plasma concentrations of methadone, which is metabolized primarily by CYP450 3A4, 2B6, 2C19, and to a lesser extent by CYP450 2C9 and 2D6. The possibility of prolonged and/or increased pharmacologic effects of methadone, such as central nervous system and respiratory depression, should be considered. In addition, high dosages (particularly above 200 mg/day) and serum levels of methadone have been associated with QT interval prolongation and torsade de pointes arrhythmia.

MANAGEMENT: Caution is advised if methadone is prescribed in combination with CYP450 3A4 inhibitors. Pharmacologic response to methadone should be closely monitored and the dosage adjusted accordingly, particularly following initiation or discontinuation of the CYP450 3A4 inhibitor in patients who are stabilized on their methadone regimen. Patients should be advised to report excessive drowsiness, nausea, or asthenia to their physician, and to seek immediate medical attention if they experience symptoms that could indicate the occurrence of torsade de pointes such as dizziness, lightheadedness, fainting, palpitation, irregular heart rhythm, shortness of breath, or syncope. ECG monitoring should be considered for patients on methadone with heart or liver disease; conduction abnormalities; electrolyte disturbances (i.e., hypokalemia, hypomagnesemia); concomitant use of drugs that may cause QT prolongation or electrolyte loss; concomitant use of CYP450 3A4 inhibitors; or use of methadone at dosages greater than 200 mg daily.

References

  1. Bell J, Seres V, Bowron P, Lewis J, Batey R (1988) "The use of serum methadone levels in patients receiving methadone maintenance." Clin Pharmacol Ther, 43, p. 623-9
  2. Iribarne C, Berthou F, Baird S, Dreano Y, Picart D, Bail JP, Beaune P, Menez JF (1996) "Involvement of cytochrome P450 3A4 enzyme in the N-demethylation of methadone in human liver microsomes." Chem Res Toxicol, 9, p. 365-73
  3. Oda Y, Kharasch ED (2001) "Metabolism of methadone and levo-alpha-acetylmethadol (LAAM) by human intestinal cytochrome P450 3A4 (CYP3A4): potential contribution of intestinal metabolism to presystemic clearance and bioactivation." J Pharmacol Exp Ther, 298, p. 1021-32
  4. Krantz MJ, Lewkowiez L, Hays H, et al. (2002) "Torsade de pointes associated with very-high-dose methadone." Ann Intern Med, 137, p. 501-4
  5. Foster DJ, Somogyi AA, Bochner F (1999) "Methadone N-demethylation in human liver microsomes: lack of stereoselectivity and involvement of CYP3A4." Br J Clin Pharmacol, 47, p. 403-12
  6. Ehret GB, Desmeules JA, Broers B (2007) "Methadone-associated long QT syndrome: improving pharmacotherapy for dependence on illegal opioids and lessons learned for pharmacology." Expert Opin Drug Saf, 6, p. 289-303
  7. Moody DE, Alburges ME, Parker RJ, Collings JM, Strong JM (1997) "The involvement of cytochrome P450 3A4 in the N-demethylation of L-alpha-acetylmethadol (LAAM), norLAAM, and methadone." Drug Metab Dispos, 25, p. 1347-53
  8. (2012) "Product Information. Stribild (cobicistat/elvitegravir/emtricitabine/tenofov)." Gilead Sciences
View all 8 references

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Drug and food interactions

Moderate

rifAMPin food

Applies to: IsonaRif (isoniazid / rifampin)

GENERALLY AVOID: Concurrent use of rifampin in patients who ingest alcohol daily may result in an increased incidence of hepatotoxicity. The increase in hepatotoxicity may be due to an additive risk as both alcohol and rifampin are individually associated with this adverse reaction. However, the exact mechanism has not been established.

ADJUST DOSING INTERVAL: Administration with food may reduce oral rifampin absorption, increasing the risk of therapeutic failure or resistance. In a randomized, four-period crossover phase I study of 14 healthy male and female volunteers, the pharmacokinetics of single dose rifampin 600 mg were evaluated under fasting conditions and with a high-fat meal. Researchers observed that administration of rifampin with a high-fat meal reduced rifampin peak plasma concentration (Cmax) by 36%, nearly doubled the time to reach peak plasma concentration (Tmax) but reduced overall exposure (AUC) by only 6%.

MANAGEMENT: The manufacturer of oral forms of rifampin recommends administration on an empty stomach, 30 minutes before or 2 hours after meals. Patients should be encouraged to avoid alcohol or strictly limit their intake. Patients who use alcohol and rifampin concurrently or have a history of alcohol use disorder may require additional monitoring of their liver function during treatment with rifampin.

References

  1. (2022) "Product Information. Rifampin (rifAMPin)." Akorn Inc
  2. (2022) "Product Information. Rifampicin (rifampicin)." Mylan Pharmaceuticals Inc
  3. (2023) "Product Information. Rifadin (rifampicin)." Sanofi
  4. (2024) "Product Information. Rifadin (rifaMPICin)." Sanofi-Aventis Australia Pty Ltd
  5. Peloquin CA, Namdar R, Singleton MD, Nix DE (2024) Pharmacokinetics of rifampin under fasting conditions, with food, and with antacids https://pubmed.ncbi.nlm.nih.gov/9925057/
  6. (2019) "Product Information. Rofact (rifampin)." Bausch Health, Canada Inc.
View all 6 references

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Moderate

methadone food

Applies to: methadone

GENERALLY AVOID: Coadministration with grapefruit juice may increase the plasma concentrations of methadone. The proposed mechanism is inhibition of CYP450 3A4-mediated first-pass metabolism in the gut wall by certain compounds present in grapefruits. In 8 study subjects stabilized on methadone maintenance treatment, ingestion of regular strength grapefruit juice (200 mL one-half hour before and 200 mL simultaneously with the daily methadone dose) for five days resulted in an approximately 17% mean increase in methadone peak plasma concentration (Cmax) and systemic exposure (AUC) and a 14% mean decrease in apparent clearance for both the R(+) and S(-) enantiomers. Grapefruit juice did not affect the time to peak level (Tmax), terminal half-life, or apparent volume of distribution of methadone. No signs or symptoms of methadone toxicity or changes in intensity of withdrawal symptoms were reported in the study.

MANAGEMENT: Given the interindividual variability in the pharmacokinetics of methadone, a more significant interaction with grapefruit juice in certain patients cannot be ruled out. Patients treated with methadone should preferably avoid or limit the consumption of grapefruit juice, particularly during the induction of maintenance treatment.

References

  1. Iribarne C, Berthou F, Baird S, Dreano Y, Picart D, Bail JP, Beaune P, Menez JF (1996) "Involvement of cytochrome P450 3A4 enzyme in the N-demethylation of methadone in human liver microsomes." Chem Res Toxicol, 9, p. 365-73
  2. Oda Y, Kharasch ED (2001) "Metabolism of methadone and levo-alpha-acetylmethadol (LAAM) by human intestinal cytochrome P450 3A4 (CYP3A4): potential contribution of intestinal metabolism to presystemic clearance and bioactivation." J Pharmacol Exp Ther, 298, p. 1021-32
  3. Benmebarek M, Devaud C, Gex-Fabry M, et al. (2004) "Effects of grapefruit juice on the pharmacokinetics of the enantiomers of methadone." Clin Pharmacol Ther, 76, p. 55-63
  4. Foster DJ, Somogyi AA, Bochner F (1999) "Methadone N-demethylation in human liver microsomes: lack of stereoselectivity and involvement of CYP3A4." Br J Clin Pharmacol, 47, p. 403-12
View all 4 references

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Moderate

isoniazid food

Applies to: IsonaRif (isoniazid / rifampin)

GENERALLY AVOID: Concurrent use of isoniazid (INH) in patients who ingest alcohol daily may result in an increased incidence of both hepatotoxicity and peripheral neuropathy. The increase in hepatotoxicity may be due to an additive risk as both alcohol and INH are individually associated with this adverse reaction. INH-associated hepatotoxicity is believed to be due to an accumulation of toxic metabolites and may also be partly immune mediated, though the exact mechanisms are not universally agreed upon. INH is metabolized by N-acetyltransferase and CYP450 2E1. The rate of acetylation is genetically determined and generally classified as slow or rapid. Slow acetylators have been identified by some studies as having a higher risk of hepatotoxicity; therefore, this interaction may be more significant for patients who fall into this category. Other studies have postulated that alcohol-mediated CYP450 2E1 induction may play a role, as this isoenzyme is involved in INH metabolism and may be responsible for producing hepatotoxic metabolites. However, available literature is conflicting. The labeling for some INH products lists daily alcohol use or chronic alcoholism as a risk factor for hepatitis, but not all studies have found a significant association between alcohol use and INH-induced hepatotoxicity. Additionally, INH and alcohol are both associated with pyridoxine (B6) deficiency, which may increase the risk of peripheral neuropathy.

GENERALLY AVOID: Concomitant administration of isoniazid (INH) with foods containing tyramine and/or histamine may increase the risk of symptoms relating to tyramine- and/or histamine toxicity (e.g., headache, diaphoresis, flushing, palpitations, and hypotension). The proposed mechanism is INH-mediated inhibition of monoamine oxidase (MAO) and diamine oxidase (DAO), enzymes responsible for the metabolism of tyramine and histamine, respectively. Some authors have suggested that the reactions observed are mainly due to INH's effects on DAO instead of MAO or the amounts of histamine instead of tyramine present in the food. A Japanese case report recorded an example in 8 out of 25 patients on the tuberculosis ward who developed an accidental histamine poisoning after ingesting a fish paste (saury). Patients developed allergy-like symptoms, which started between 20 minutes and 2 hours after ingesting the food. A high-level of histamine (32 mg/100 g of fish) was confirmed in the saury paste and all 8 patients were both on INH and had reduced MAO concentrations. The 17 remaining patients were not on INH (n=5) or reported not eating the saury paste (n=12).

ADJUST DOSING INTERVAL: Administration with food significantly reduces oral isoniazid (INH) absorption, increasing the risk of therapeutic failure or resistance. The mechanism is unknown. Pharmacokinetic studies completed in both healthy volunteers (n=14) and tuberculosis patients (n=20 treatment-naive patients during days 1 to 3 of treatment) have resulted in almost doubling the time to reach INH's maximum concentration (tmax) and a reduction in isoniazid's maximum concentration (Cmax) of 42%-51% in patients who consumed high-fat or high-carbohydrate meals prior to INH treatment.

MANAGEMENT: The manufacturer of oral forms of isoniazid (INH) recommends administration on an empty stomach (i.e., 30 minutes before or 2 hours after meals). Patients should be encouraged to avoid alcohol or strictly limit their intake. Patients who use alcohol and INH concurrently or have a history of alcohol use disorder may require additional monitoring of their liver function during treatment with INH. Concomitant pyridoxine (B6) administration is also recommended to reduce the risk of peripheral neuropathy, with some authorities suggesting a dose of at least 10 mg/day. Patients should be advised to avoid foods containing tyramine (e.g., aged cheese, cured meats such as sausages and salami, fava beans, sauerkraut, soy sauce, beer, or red wine) or histamine (e.g., skipjack, tuna, mackerel, salmon) during treatment with isoniazid. Consultation of product labeling for combination products containing isoniazid and/or relevant guidelines may be helpful for more specific recommendations.

References

  1. Smith CK, Durack DT (1978) "Isoniazid and reaction to cheese." Ann Intern Med, 88, p. 520-1
  2. Dimartini A (1995) "Isoniazid, tricyclics and the ''cheese reaction''." Int Clin Psychopharmacol, 10, p. 197-8
  3. Uragoda CG, Kottegoda SR (1977) "Adverse reactions to isoniazid on ingestion of fish with a high histamine content." Tubercle, 58, p. 83-9
  4. Self TH, Chrisman CR, Baciewicz AM, Bronze MS (1999) "Isoniazid drug and food interactions." Am J Med Sci, 317, p. 304-11
  5. (2021) "Product Information. Isoniazid/Rifapentine 300 mg/300 mg (Macleods) (isoniazid-rifapentine)." Imported (India), 2
  6. (2023) "Product Information. Isoniazid (isoniazid)." Chartwell RX, LLC.
  7. (2023) "Product Information. Isoniazid (Arrotex) (isoniazid)." Arrotex Pharmaceuticals Pty Ltd
  8. (2023) "Product Information. Isoniazid (isoniazid)." RPH Pharmaceuticals AB
  9. Saukkonen JJ, Cohn DL, Jasmer RM, et al. (2006) "An official ATS statement: hepatotoxicity of antituberculosis therapy." Am J Respir Crit Care Med, 174, p. 935-52
  10. Bouazzi OE, Hammi S, Bourkadi JE, et al. (2024) First line anti-tuberculosis induced hepatotoxicity: incidence and risk factors. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5326068/
  11. Wang P, Pradhan K, Zhong XB, Ma X (2016) "Isoniazid metabolism and hepatoxicity." Acta Pharm Sin B, 6, p. 384-92
  12. Saktiawati AM, Sturkenboom MG, Stienstra Y, et al. (2016) "Impact of food on the pharmacokinetics of first-line anti-TB drugs in treatment naive TB patients: a randomized cross-over trial." J Antimicrob Chemother, 71, p. 703-10
  13. Hahn JA, Ngabirano C, Fatch R, et al. (2023) "Safety and tolerability of isoniazid preventive therapy for tuberculosis for persons with HIV with and without alcohol use." AIDS, 37, p. 1535-43
  14. Huang YS, Chern HD, Su WJ, et al. (2003) "Cytochrome P450 2E1 genotype and the susceptibility to antituberculosis drug-induced hepatitis." Hepatology, 37, p. 924-30
  15. Sousou JM, Griffith EM, Marsalisi C, Reddy P (2024) Pyridoxine deficiency and neurologic dysfunction: an unlikely association. https://www.cureus.com/articles/188310-pyridoxine-deficiency-and-neurologic-dysfunction-an-unlikely-association?score_article=true#!/
  16. Miki M, Ishikawa T, Okayama H (2005) "An outbreak of histamine poisoning after ingestion of the ground saury paste in eight patients taking isoniazid in tuberculous ward." Intern Med, 44, p. 1133-6
  17. (2021) "Product Information. Isotamine (isoniazid)." Bausch Health, Canada Inc.
View all 17 references

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Moderate

methadone food

Applies to: methadone

GENERALLY AVOID: Ethanol may potentiate the central nervous system (CNS) depressant effects of opioid analgesics. Concomitant use may result in additive CNS depression and impairment of judgment, thinking, and psychomotor skills. In more severe cases, hypotension, respiratory depression, profound sedation, coma, or even death may occur.

MANAGEMENT: Concomitant use of opioid analgesics with ethanol should be avoided.

References

  1. Linnoila M, Hakkinen S (1974) "Effects of diazepam and codeine, alone and in combination with alcohol, on simulated driving." Clin Pharmacol Ther, 15, p. 368-73
  2. Sturner WQ, Garriott JC (1973) "Deaths involving propoxyphene: a study of 41 cases over a two-year period." JAMA, 223, p. 1125-30
  3. Girre C, Hirschhorn M, Bertaux L, et al. (1991) "Enhancement of propoxyphene bioavailability by ethanol: relation to psychomotor and cognitive function in healthy volunteers." Eur J Clin Pharmacol, 41, p. 147-52
  4. Levine B, Saady J, Fierro M, Valentour J (1984) "A hydromorphone and ethanol fatality." J Forensic Sci, 29, p. 655-9
  5. Sellers EM, Hamilton CA, Kaplan HL, Degani NC, Foltz RL (1985) "Pharmacokinetic interaction of propoxyphene with ethanol." Br J Clin Pharmacol, 19, p. 398-401
  6. Carson DJ (1977) "Fatal dextropropoxyphene poisoning in Northern Ireland. Review of 30 cases." Lancet, 1, p. 894-7
  7. Rosser WW (1980) "The interaction of propoxyphene with other drugs." Can Med Assoc J, 122, p. 149-50
  8. Edwards C, Gard PR, Handley SL, Hunter M, Whittington RM (1982) "Distalgesic and ethanol-impaired function." Lancet, 2, p. 384
  9. Kiplinger GF, Sokol G, Rodda BE (1974) "Effect of combined alcohol and propoxyphene on human performance." Arch Int Pharmacodyn Ther, 212, p. 175-80
View all 9 references

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Therapeutic duplication warnings are only returned when drugs within the same group exceed the recommended therapeutic duplication maximum.

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Drug Interaction Classification

These classifications are only a guideline. The relevance of a particular drug interaction to a specific individual is difficult to determine. Always consult your healthcare provider before starting or stopping any medication.
Major Highly clinically significant. Avoid combinations; the risk of the interaction outweighs the benefit.
Moderate Moderately clinically significant. Usually avoid combinations; use it only under special circumstances.
Minor Minimally clinically significant. Minimize risk; assess risk and consider an alternative drug, take steps to circumvent the interaction risk and/or institute a monitoring plan.
Unknown No interaction information available.

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