Diltiazem Drug Interactions: A Quality Assessment of GeneMedRx

1. Diltiazem Drug Interactions:A Quality Assessment of GeneMedRx Shannon C. O�Hara, Pharm.D. Candidate (2007) University of Washington School of Pharmacy Genelex Corporation Seattle, WA February 22, 2007

2. Objectives for this project Research known pharmacokinetic and pharmacodynamic interactions between diltiazem and other drugs/drug classes Compare list of diltiazem drug interactions with information already in GeneMedRx Enter new notes for interactions not found in GeneMedRx; revise existing notes with new information/references Use new information to measure effectiveness of GeneMedRx algorithm at predicting interactions

3. Diltiazem: a non-dihydropyridine calcium channel blocker Like other CCBs� blocks slow response (L-type) calcium channels in plasma membrane of heart and vascular smooth muscle ? vasodilation Unlike most other CCBs� may cause AV block, hypotension, bradycardia The �kinder, gentler verapamil�

4. Don�t trust everything you read in the product insert� Rescriptor� (delaviridine) and diltiazem1 Prescribing information for delaviridine (Pfizer) mentions interactions with dihydropyridines only Diltiazem erroneously included in this list Kaletra� (lopinavir/ritonavir) and diltiazem2 Prescribing information notes that Kaletra increases levels of dihydropyridines Diltiazem is not mentioned in this list Easy to assume that diltiazem does not interact with either of these medications, when in fact it does

5. Diltiazem has three indications 1. Hypertension: not usually 1st line, but may be useful in the following groups: Compelling indications for diabetes or high coronary disease risk (NORDIL Study, 2003)3 Asthma African-Americans

6. Diltiazem indications, cont�d. 2. Angina Alternative to beta blockers Asthma Prinzmetal�s (variant) angina Increases oxygen supply ? coronary blood flow* ? regional flow distribution Decreases oxygen demand ? HR** ? contractility** ? afterload*

7. Diltiazem indications, cont�d. 3. Supraventricular arrhythmias Class IV antiarrhythmic (Vaughn-Williams) ? SA/AV nodal automaticity ? AV node refractory period Acute and long-term therapy for: Atrial fibrillation/flutter Supraventricular tachycardias

8. Diltiazem is involved in a variety of drug interactions Pharmacokinetic CYP3A4 substrate CYP3A4 inhibitor Pharmacodynamic (various) Both

9. Diltiazem is vulnerable to 3A4 inhibitors/inducers 3A4 INHIBITION (EX: erythromycin, PI�s) ? POTENTIATED EFFECT OF DILTIAZEM ? Hypotension Bradycardia AV block 3A4 INDUCTION (EX: rifampin, CBZ) ? LOSS OF EFFECT OF DILTIAZEM ? Hypertension Chest pain SVARs

10. 3A4 inhibition by diltiazem is not always clinically significant

11. Is IV diltiazem less likely to inhibit CYP3A4? Some 3A4 interactions may involve first-pass effect Randomized, 2-way crossover trial with 10 healthy volunteers (2000)4 Lovastatin, 20mg/day alone vs. following 60 min after IV loading dose of diltiazem followed by continuous infusion IV diltiazem did not significantly affect oral AUC, Cmax, or t � of lovastatin Needed a third arm: lovastatin + PO dilt to measure difference Moral: Drug interactions may not become apparent until a patient switches from IV? PO

12. 3A4 inhibition by diltiazem has been exploited on occasion Post-transplant immunosuppression (cyclosprorine, tacrolimus, sirolimus) Cyclosporine dose reduced 20-50% Advantages Saves money Fewer adverse effects (esp. renal) Disadvantages: Interpatient variability Variability depending on organ transplanted Increased pill burden?

13. Diltiazem is also subject to numerous pharmacological drug interactions 1. Calcium channel blockade (amiodarone, lithium; calcium supplements) 2. Negative inotropes (beta blockers) 3. Anti-hypertensive medications (sometimes desirable) 4. Drugs with anti-hypertensive side effects (anesthetics, antipsychotics; alprostadil, aldesleukin, baclofen) 5. Antagonism from drugs that increase blood pressure (corticosteroids, estrogens, ma huang, yohimbine 6. Barriers to absorption (bile acid sequestrants)

14. Pharmacokinetic and pharmacodynamic interactions may occur simultaneously

15. Diltiazem drug interactions may occur at any time When the dose of one drug changes Dose dependent increase in ranolazine levels when diltiazem is increased When one drug is stopped Recurrence of seizures on carbamazepine when diltiazem discontinued.

16. Updating GeneMedRx

17. Sources consulted for this project Online drug databases British National Formulary Facts & Comparisons Lexi-Comp Micromedex PubMed Prescribing information (product inserts) Misc. reference books

18. 123 drug-drug, drug-class, and class-class interactions found

19. GeneMedRx algorithm had a 79% prediction rate

20. Updating GeneMedRx BEFORE: 36 interactions located 31 intxns under �diltiazem� 5 intxns under �calcium channel blockers� AFTER: 95 interactions 33 new drug-drug interactions 16 new drug-class interactions 10 new class-class interactions 22 existing notes updated Almost 150 references added

21. Highlights Xanthines (theophylline, aminophylline): decreased CL with diltiazem Nafcillin: a potent 3A4 inducer Telithromycin: hypotension and bradyarrhythmia Antipsychotics: orthostatic hypotension may be exacerbated Cardiac glycosides: conflicting evidence Atorvastatin: case reports of rhabomyolysis Bile acid sequestrants: decrease absorption Aspirin: prolonged bleeding Lithium: neurotoxicity, increased mania

22. Strengths of this assessment Numerous sources were consulted to provide a thorough list of drug interactions with diltiazem, including drug-class and class-class interactions Pharmacokinetic and pharmacodynamic interactions were given equal importance Evidence-based literature from case reports and clinical trials tended to broadly validate the GeneMedRx algorithm

23. Limitations of this assessment Some interactions had to be entered multiple times due to separations among categories in GeneMedRx �Anti-hypertensives, Central� vs. �Anti-hypertensives/Cardiac Medications� �Antipsychotics� vs. �Antipsychotics-Atypical� Data entry system is designed to identify a �victim� and a �culprit� in a drug interaction; this may not always be easy to identify Carbamazepine may decrease diltiazem levels via 3A4 induction while diltiazem may increase carbamazepine levels via 3A4 inhibition Pharmacodynamic interactions

24. Summary Because of its pharmacokinetic and pharmacodynamic properties, diltiazem is prone to numerous drug interactions As with all drugs, interactions may occur at any time. Prescribers should be alert to possible interactions not only when dilitazem or an interacting drug is intiated, but also following dosing changes in either drug, whenever one drug is discontinued, and possibly when diltiazem is given by a different route. Some of these interactions may be exploited in the patient�s best interest (antihypertensives, immunosuppressants) The GeneMedRx algorithm was able to broadly predict pharmacokinetic interactions between diltiazem and many other drugs with good accuracy.

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27. References, cont�d. Kothari J, Nash M, Zaltzman J, Ramesh Prasad GV. Diltiazem use in tacrolimus-treated renal patients. J Clin Pharm Ther. 2004 Oct;29(5): 425-430. PMID 15482385. Masica AL, Azie NE, Brater DC, Hall SD, Jones DR. Intravenous diltiazem and CYP3A-mediated metabolism. Br J Phamacol 2000 Sep;50(3):273-276. PMID 10971313 McCauley J, Ptachcinski R, Shapiro R. The cyclosporine-sparing effects of diltiazem in renal transplantation. Transplant Proc 1989;21:3955-3957. PMID 2609415. McLachlan AJ & Tett SE. Effect of metabolic inhibitors on cyclosproine pharmacokinetics using a population approach. Ther Drug Monit 1998 Aug;20(4):390-395. PMID 9712463. Neumayer HM & Wagner K. Diltiazem and economic use of cyclosporine. Lancet 1986;2:523. PMID 2875274. Pea F & Furlanut M. Pharmacokinetic aspects of treating infections in the intensive care unit: focus on drug interactions. Clin Pharmacokinet 2001; 40(11):833-868. PMID 11735605.

28. References, cont�d. Prenner JG, Lehle K, Eichinger H, Repprecht L. First-pass metabolism of cyclosporine A in human intestine: inhibition by diltiazem. Transplant Proc 1998 Sep;30(6):2545-2546. PMID 9745480. Ray WA, Murray KT, Meredith S et al. Oral erythromycin and the risk of sudden death from cardiac causes. N Engl J Med 2004;351(11):1089-1096. PMID 15356306. Reed M, Wall GC, Shah NP, et al. Verapamil toxicity resulting from a probable interaction with telithromycin. Ann Pharmacother 2005 Feb; 39(2):357-360. PMID 15598962. Ring ME, Corrigan JJ Jr, Fenster PE. Effects of oral diltiazem on platelet function: alone and in combination with �low dose� aspirin. Thromb Res 1986;44:391-400. PMID 3798404. Ring ME, Martin GV, Fenster PE: Clinically significant antiplatelet effects of calcium-channel blockers. J Clin Pharmacol 1986;26:719-720. PMID 3793966.

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