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Drug Interactions between Claritin Reditabs and mavacamten

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

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Interactions between your drugs

Moderate

loratadine mavacamten

Applies to: Claritin Reditabs (loratadine) and mavacamten

MONITOR: Coadministration with mavacamten may decrease the plasma concentrations of drugs that are primarily metabolized by CYP450 3A4, 2C9, and/or 2C19. The proposed mechanism is accelerated clearance due to induction of these isoenzymes by mavacamten. The interaction may be particularly important for sensitive substrates or those that demonstrate a narrow therapeutic index. When midazolam, a probe substrate for CYP450 3A4, was coadministered with a 16-day course of mavacamten (25 mg on days 1 and 2, followed by 15 mg for 14 days) in healthy CYP450 2C19 normal metabolizers, midazolam peak plasma concentration (Cmax) decreased by 7% and systemic exposure (AUC) decreased by 13%. Following coadministration of mavacamten once daily in patients with obstructive hypertrophic cardiomyopathy (HCM), midazolam Cmax and AUC are predicted to decrease by 13% to 48% and 21% to 64%, respectively, depending on the dose of mavacamten and CYP450 2C19 phenotype. Additionally, concomitant use of mavacamten once daily in HCM patients is predicted to decrease the Cmax and AUC of repaglinide, a CYP450 2C8 and 3A4 substrate, by 12% to 39%; the Cmax and AUC of tolbutamide, a CYP450 2C9 substrate, by 33% to 65%; and the Cmax and AUC of omeprazole, a CYP450 2C19 substrate, by 48% to 67%, depending on the dose of mavacamten and CYP450 2C19 phenotype.

MANAGEMENT: Caution is advised when mavacamten is used concomitantly with drugs that are substrates of CYP450 3A4, 2C9 and/or 2C19, particularly sensitive substrates or those with a narrow therapeutic range. Dosage adjustments as well as clinical and laboratory monitoring may be appropriate for some drugs whenever mavacamten is added to or withdrawn from therapy. The prescribing information for concomitant medications should be consulted to assess the benefits versus risks of coadministration of a CYP450 inducer like mavacamten and for any dosage adjustments that may be required.

References

  1. (2022) "Product Information. Camzyos (mavacamten)." MyoKardia Inc
  2. (2023) "Product Information. Camzyos (mavacamten)." Bristol-Myers Squibb Australia Pty Ltd, 2

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Drug and food interactions

Major

mavacamten food

Applies to: mavacamten

GENERALLY AVOID: Grapefruit juice may increase the plasma concentrations of mavacamten. The proposed mechanism is inhibition of CYP450 3A4-mediated first-pass metabolism in the gut wall by certain compounds present in grapefruit. Inhibition of hepatic CYP450 3A4 may also contribute. The interaction has not been studied with grapefruit juice, but has been reported for other CYP450 3A4 inhibitors. According to the prescribing information, mavacamten is primarily metabolized by CYP450 2C19 (74%) and to a lesser extent by CYP450 3A4 (18%) and 2C9 (8%). When mavacamten (25 mg) was coadministered with the moderate CYP450 3A4 inhibitor verapamil (sustained-release 240 mg) in intermediate and normal metabolizers of CYP450 2C19, mavacamten systemic exposure (AUC) increased by 15% and peak plasma concentration (Cmax) increased by 52%. Concomitant use of mavacamten with diltiazem, another moderate CYP450 3A4 inhibitor, in CYP450 2C19 poor metabolizers is predicted to increase mavacamten AUC and Cmax by up to 55% and 42%, respectively. Concomitant use of mavacamten (15 mg) with the potent CYP450 3A4 inhibitor ketoconazole (400 mg once daily) is predicted to increase mavacamten AUC and Cmax by up to 130% and 90%, respectively. Because mavacamten reduces systolic contraction and left ventricular ejection fraction, increased exposure may potentiate the risk of heart failure. In general, the effect of grapefruit juice is concentration-, dose- and preparation-dependent, and can vary widely among brands. Certain preparations of grapefruit juice (e.g., high dose, double strength) have sometimes demonstrated potent inhibition of CYP450 3A4, while other preparations (e.g., low dose, single strength) have typically demonstrated moderate inhibition.

Food does not affect the extent of absorption of mavacamten. No clinically significant difference in mavacamten exposure was observed following administration with a high-fat meal. However, the time to reach peak plasma concentration (Tmax) was increased by 4 hours.

MANAGEMENT: Mavacamten may be administered with or without food. Patients should avoid consumption of grapefruit and grapefruit juice during treatment with mavacamten.

References

  1. (2022) "Product Information. Camzyos (mavacamten)." MyoKardia Inc
  2. (2023) "Product Information. Camzyos (mavacamten)." Bristol-Myers Squibb Australia Pty Ltd, 2

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Minor

loratadine food

Applies to: Claritin Reditabs (loratadine)

Theoretically, grapefruit juice may increase the plasma concentrations of loratadine as it does other drugs that are substrates of the CYP450 3A4 enzymatic pathway. The proposed mechanism is inhibition of CYP450 3A4-mediated first-pass metabolism in the gut wall by certain compounds present in grapefruits. The clinical significance of this potential interaction is unknown. Reported interactions with potent CYP450 3A4 inhibitors like clarithromycin, erythromycin and ketoconazole have produced substantial increases in the area under the plasma concentration-time curve (AUC) of loratadine and its active metabolite, descarboethoxyloratadine, without associated changes in the overall safety profile of the drug.

References

  1. Edgar B, Bailey D, Bergstrand R, et al. (1992) "Acute effects of drinking grapefruit juice on the pharmacokinetics and dynamics on felodipine and its potential clinical relevance." Eur J Clin Pharmacol, 42, p. 313-7
  2. Bailey DG, Arnold JM, Munoz C, Spence JD (1993) "Grapefruit juice--felodipine interaction: mechanism, predictability, and effect of naringin." Clin Pharmacol Ther, 53, p. 637-42
  3. Bailey DG, Arnold JMO, Spence JD (1994) "Grapefruit juice and drugs - how significant is the interaction." Clin Pharmacokinet, 26, p. 91-8
  4. Sigusch H, Hippius M, Henschel L, Kaufmann K, Hoffmann A (1994) "Influence of grapefruit juice on the pharmacokinetics of a slow release nifedipine formulation." Pharmazie, 49, p. 522-4
  5. Bailey DG, Arnold JM, Strong HA, Munoz C, Spence JD (1993) "Effect of grapefruit juice and naringin on nisoldipine pharmacokinetics." Clin Pharmacol Ther, 54, p. 589-94
  6. Yamreudeewong W, Henann NE, Fazio A, Lower DL, Cassidy TG (1995) "Drug-food interactions in clinical practice." J Fam Pract, 40, p. 376-84
  7. (1995) "Grapefruit juice interactions with drugs." Med Lett Drugs Ther, 37, p. 73-4
  8. Brannan MD, Reidenberg P, Radwanski E, et al. (1995) "Loratadine administered concomitantly with erythromycin: pharmacokinetic and electrocardiographic evaluations." Clin Pharmacol Ther, 58, p. 269-78
  9. Hukkinen SK, Varhe A, Olkkola KT, Neuvonen PJ (1995) "Plasma concentrations of triazolam are increased by concomitant ingestion of grapefruit juice." Clin Pharmacol Ther, 58, p. 127-31
  10. Min DI, Ku YM, Geraets DR, Lee HC (1996) "Effect of grapefruit juice on the pharmacokinetics and pharmacodynamics of quinidine in healthy volunteers." J Clin Pharmacol, 36, p. 469-76
  11. Majeed A, Kareem A (1996) "Effect of grapefruit juice on cyclosporine pharmacokinetics." Pediatr Nephrol, 10, p. 395
  12. Clifford CP, Adams DA, Murray S, Taylor GW, Wilkins MR, Boobis AR, Davies DS (1996) "Pharmacokinetic and cardiac effects of terfenadine after inhibition of its metabolism by grapefruit juice." Br J Clin Pharmacol, 42, p662
  13. Josefsson M, Zackrisson AL, Ahlner J (1996) "Effect of grapefruit juice on the pharmacokinetics of amlodipine in healthy volunteers." Eur J Clin Pharmacol, 51, p. 189-93
  14. Yumibe N, Huie K, Chen KJ, Snow M, Clement RP, Cayen MN (1996) "Identification of human liver cytochrome P450 enzymes that metabolize the nonsedating antihistamine loratadine. Formation o descarboethoxyloratadine by CYP3A4 and CYP2D6." Biochem Pharmacol, 51, p. 165-72
  15. Carr RA, Edmonds A, Shi H, Locke CS, Gustavson LE, Craft JC, Harris SI, Palmer R (1998) "Steady-state pharmacokinetics and electrocardiographic pharmacodynamics of clarithromycin and loratadine after individual or concomitant administration." Antimicrob Agents Chemother, 42, p. 1176-80
  16. Kantola T, Kivisto KT, Neuvonen PJ (1998) "Grapefruit juice greatly increases serum concentrations of lovastatin and lovastatin acid." Clin Pharmacol Ther, 63, p. 397-402
  17. Bailey DG, Malcolm J, Arnold O, Spence JD (1998) "Grapefruit juice-drug interactions." Br J Clin Pharmacol, 46, p. 101-10
  18. Bailey DG, Kreeft JH, Munoz C, Freeman DJ, Bend JR (1998) "Grapefruit juice felodipine interaction: Effect of naringin and 6',7'-dihydroxybergamottin in humans." Clin Pharmacol Ther, 64, p. 248-56
  19. Garg SK, Kumar N, Bhargava VK, Prabhakar SK (1998) "Effect of grapefruit juice on carbamazepine bioavailability in patients with epilepsy." Clin Pharmacol Ther, 64, p. 286-8
  20. Lilja JJ, Kivisto KT, Neuvonen PJ (1998) "Grapefruit juice-simvastatin interaction: Effect on serum concentrations of simvastatin, simvastatin acid, and HMG-CoA reductase inhibitors." Clin Pharmacol Ther, 64, p. 477-83
  21. Fuhr U, Maier-Bruggemann A, Blume H, et al. (1998) "Grapefruit juice increases oral nimodipine bioavailability." Int J Clin Pharmacol Ther, 36, p. 126-32
  22. Lilja JJ, Kivisto KT, Neuvonen PJ (1999) "Grapefruit juice increases serum concentrations of atorvastatin and has no effect on pravastatin." Clin Pharmacol Ther, 66, p. 118-27
  23. Eagling VA, Profit L, Back DJ (1999) "Inhibition of the CYP3A4-mediated metabolism and P-glycoprotein-mediated transport of the HIV-I protease inhibitor saquinavir by grapefruit juice components." Br J Clin Pharmacol, 48, p. 543-52
  24. Damkier P, Hansen LL, Brosen K (1999) "Effect of diclofenac, disulfiram, itraconazole, grapefruit juice and erythromycin on the pharmacokinetics of quinidine." Br J Clin Pharmacol, 48, p. 829-38
  25. Lee AJ, Chan WK, Harralson AF, Buffum J, Bui BCC (1999) "The effects of grapefruit juice on sertraline metabolism: An in vitro and in vivo study." Clin Ther, 21, p. 1890-9
  26. Gunston GD, Mehta U (2000) "Potentially serious drug interactions with grapefruit juice." S Afr Med J, 90, p. 41
  27. Takanaga H, Ohnishi A, Maatsuo H, et al. (2000) "Pharmacokinetic analysis of felodipine-grapefruit juice interaction based on an irreversible enzyme inhibition model." Br J Clin Pharmacol, 49, p. 49-58
  28. Libersa CC, Brique SA, Motte KB, et al. (2000) "Dramatic inhibition of amiodarone metabolism induced by grapefruit juice." Br J Clin Pharmacol, 49, p. 373-8
  29. 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
  30. Kosoglou T, Salfi M, Lim JM, Batra VK, Cayen MN, Affrime MB (2000) "Evaluation of the pharmacokinetics and electrocardiographic pharmacodynamics of loratadine with concomitant administration of ketoconazole or cimetidine." Br J Clin Pharmacol, 50, p. 581-9
View all 30 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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