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Drug Interactions between Neoral and Nydrazid

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

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Interactions between your drugs

Moderate

cycloSPORINE isoniazid

Applies to: Neoral (cyclosporine) and Nydrazid (isoniazid)

MONITOR: Isoniazid may decrease serum cyclosporine concentrations. The mechanism is induction of hepatic CYP450 3A4 metabolism by isoniazid. Although cyclosporine and isoniazid have been safely used together in clinical trials with renal and heart transplant patients, individual cases of reduced cyclosporine blood levels have been reported.

MANAGEMENT: If these agents are used concomitantly, cyclosporine levels should be closely monitored. If an interaction is suspected, alterations in cyclosporine dosage may be necessary.

References

  1. Langhoff E, Madsen S (1983) "Rapid metabolism of cyclosporin and prednisone in kidney transplant patients on tuberculostatic treatment." Lancet, 2, p. 1303
  2. Kahan BD (1983) "The management of heart transplant recipients treated with cyclosporine." Transplant Proc, 15, p. 2649-61
  3. Kahan BD (1983) "The management of kidney transplant recipients treated with cyclosporine." Transplant Proc, 15, p. 2641-8
  4. Zylberkatz E (1995) "Multiple drug interactions with cyclosporine in a heart transplant patient." Ann Pharmacother, 29, p. 127-31
  5. Korner MM, Hirata N, Tenderich G, Minami K, Mannebach H, Kleesiek K, Korfer R (1997) "Tuberculosis in heart transplant recipients." Chest, 111, p. 365-9
  6. Sud K, Muthukumar T, Singh B, Garg SK, Kohli HS, Jha V, Gupta KL, Sakhuja V (2000) "Isoniazid does not affect bioavailability of cyclosporine in renal transplant recipients." Meth Find Exp Clin Pharmacol, 22, p. 647-9
View all 6 references

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Drug and food interactions

Moderate

cycloSPORINE food

Applies to: Neoral (cyclosporine)

GENERALLY AVOID: Administration with grapefruit juice (compared to water or orange juice) has been shown to increase blood concentrations of cyclosporine with a relatively high degree of interpatient variability. The mechanism is inhibition of CYP450 3A4-mediated first-pass metabolism in the gut wall by certain compounds present in grapefruits.

GENERALLY AVOID: Administration with red wine or purple grape juice may decrease blood concentrations of cyclosporine. In 12 healthy volunteers, 12 ounces total of a merlot consumed 15 minutes prior to and during cyclosporine administration (single 8 mg/kg dose of Sandimmune) decreased cyclosporine peak blood concentration (Cmax) and systemic exposure (AUC) by 38% and 30%, respectively, compared to water. The time to reach peak concentration (Tmax) doubled, and oral clearance increased 50%. Similarly, one study were 12 healthy patients were administered purple grape juice and a single dose of cyclosporine showed a 30% and a 36% decrease in cyclosporine systemic exposure (AUC) and peak blood concentration (Cmax), respectively. The exact mechanism of interaction is unknown but may involve decreased cyclosporine absorption.

MONITOR: Food has been found to have variable effects on the absorption of cyclosporine. There have been reports of impaired, unchanged, and enhanced absorption during administration with meals relative to the fasting state. The mechanisms are unclear. Some investigators found an association with the fat content of food. In one study, increased fat intake resulted in significantly increased cyclosporine bioavailability and clearance. However, the AUC and pharmacodynamics of cyclosporine were not significantly affected, thus clinical relevance of these findings may be minimal.

MANAGEMENT: Patients receiving cyclosporine therapy should be advised to either refrain from or avoid fluctuations in the consumption of grapefruits and grapefruit juice. Until more data are available, the consumption of red wine or purple grape juice should preferably be avoided or limited. All oral formulations of cyclosporine should be administered on a consistent schedule with regard to time of day and relation to meals so as to avoid large fluctuations in plasma drug levels.

References

  1. Honcharik N, Yatscoff RW, Jeffery JR, Rush DN (1991) "The effect of meal composition on cyclosporine absorption." Transplantation, 52, p. 1087-9
  2. Ducharme MP, Provenzano R, Dehoornesmith M, Edwards DJ (1993) "Trough concentrations of cyclosporine in blood following administration with grapefruit juice." Br J Clin Pharmacol, 36, p. 457-9
  3. Bailey DG, Arnold JMO, Spence JD (1994) "Grapefruit juice and drugs - how significant is the interaction." Clin Pharmacokinet, 26, p. 91-8
  4. Hollander AAMJ, Vanrooij J, Lentjes EGWM, Arbouw F, Vanbree JB, Schoemaker RC, Vanes LA, Vanderwoude FJ, Cohen AF (1995) "The effect of grapefruit juice on cyclosporine and prednisone metabolism in transplant patients." Clin Pharmacol Ther, 57, p. 318-24
  5. (1995) "Grapefruit juice interactions with drugs." Med Lett Drugs Ther, 37, p. 73-4
  6. Tan KKC, Trull AK, Uttridge JA, Metcalfe S, Heyes CS, Facey S, Evans DB (1995) "Effect of dietary fat on the pharmacokinetics and pharmacodynamics of cyclosporine in kidney transplant recipients." Clin Pharmacol Ther, 57, p. 425-33
  7. Yee GC, Stanley DL, Pessa LJ, et al. (1995) "Effect of grrapefruit juice on blood cyclosporin concentration." Lancet, 345, p. 955-6
  8. Ducharme MP, Warbasse LH, Edwards DJ (1995) "Disposition of intravenous and oral cyclosporine after administration with grapefruit juice." Clin Pharmacol Ther, 57, p. 485-91
  9. Ioannidesdemos LL, Christophidis N, Ryan P, Angelis P, Liolios L, Mclean AJ (1997) "Dosing implications of a clinical interaction between grapefruit juice and cyclosporine and metabolite concentrations in patients with autoimmune diseases." J Rheumatol, 24, p. 49-54
  10. Min DI, Ku YM, Perry PJ, Ukah FO, Ashton K, Martin MF, Hunsicker LG (1996) "Effect of grapefruit juice on cyclosporine pharmacokinetics in renal transplant patients." Transplantation, 62, p. 123-5
  11. Bailey DG, Dresser GR, Kreeft JH, Munoz C, Freeman DJ, Bend JR (2000) "Grapefruit-felodipine interaction: Effect of unprocessed fruit and probable active ingredients." Clin Pharmacol Ther, 68, p. 468-77
  12. Tsunoda SM, Harris RZ, Christians U, et al. (2001) "Red wine decreases cyclosporine bioavailability." Clin Pharmacol Ther, 70, p. 462-7
  13. Oliveira-Freitas VL, Dalla Costa T, Manfro RC, Cruz LB, Schwartsmann G (2010) "Influence of purple grape juice in cyclosporine availability." J Ren Nutr, 20, p. 309-13
View all 13 references

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Moderate

isoniazid food

Applies to: Nydrazid (isoniazid)

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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Therapeutic duplication warnings

No warnings were found for your selected drugs.

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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