Macrolide Antibiotics and Torsade de Pointes Postmarketing Analysis

1. Macrolide Antibiotics and Torsade de PointesPostmarketing Analysis Telithromycin (Ketek™) Advisory Committee April 26, 2001 Douglas N. Shaffer, MD, MHS Sarah J. Singer, RPh Office of Postmarketing Drug Risk Assessment

2. Outline • Goal and Rationale • Postmarketing Analysis • Adverse Event Reporting System (AERS) • IMS HEALTH • Reporting Rate Comparisons • Summary and Conclusions

3. The goal of this analysis is to systematically evaluate postmarketing data in attempt to provide the Advisory Committee with a descriptive overview of Torsade de Pointes in association with macrolide antibiotics.

4. Telithromycin and Macrolides - Properties Relevant to Postmarketing Analyses • Cytochrome P-450 3A4 metabolism1 • Concentration related lengthening of the QTc interval2 FDA Background Package - Ketek™ Advisory Committee 1. Pre-clinical/Phase 1 - Summary of Selected Microbiologic Information 2. Appendices - FDA Cardio-Renal Consult

5. Torsade de Pointes Analysis -Rationale & Public Health Significance “Of concern is the interval, usually measured in years, from the marketing of these drugs to initial recognition of their association with QT interval prolongation and/or TdP.” Report on a Policy Conference of the European Society of Cardiology; European Heart Journal (2000) 21:1216-1231

6. Iatrogenic QT Prolongation and Torsade de Pointes Adverse Events in the Postmarketing Setting No Pathophysiological Event QT Prolongation Non-sustained Arrhythmia Rx Pro-arrhythmic milieu Confounding Variables: 1. Concomitant Drugs 2. Disease States 3. Electrolyte Abnormalities Cardiac Sudden Death

7. Iatrogenic QT Prolongation and Torsade de Pointes Representative AERS Report: Non-sustained Arrhythmia (e.g. TdP) Syncope Emergency Room (EKG) QT Prolongation (TdP) Rarely death Drug discontinuation and resolution Rapid deterioration and treatment

8. 1. FDA AERS Analysis

9. Methods • Search Criteria (1968-2000) • Exposure - Individual macrolide drug • Outcome - TdP (Ventricular Tachycardia < 1995) • Data • Inclusions - All reports (regardless of nationality or administration) • Exclusions - Duplicate reports/Reports < 1995 w/o TdP text • Systematic pharmacoepidemiological data extraction • PC SAS v6.12 (The SAS Institute™, Cary, NC) • Search Results • 268 reports reviewed (- 112 exclusions) • 156 analyzed

10. Macrolide Antibiotics and TdP Macrolide Reports*, N [%] Erythromycin 82 [53%] Clarithromycin 56 [36%] Azithromycin 18 [11%] Dirithromycin 0 156 * 44 (28 %) IV: Azithromycin = 4, Erythromycin = 40

11. Demographic/Anthropometric Data Variable* Mean (SD) or Frequency [%] Age (years) 61 (22) Female 70% Caucasian 60% Weight (lbs.) 152 (32) * Based upon N (%) of 156 reported: age = 93%, gender = 94%, race = 16%, weight = 26%

12. TdP Event Characteristics Variable* Mean ( SD) Baseline QT (msec) § 432 (50) Event QT (msec) §594 (80) QT Change (msec) 172 (67) Days to Event** 4 (3) Fatalities = 14 events/156 reports [9%] * N (%) reported: Baseline = 25%, Event = 36%, QT change = 24%, Days = 64% § 59% of cases reported QTc ** 3 outliers (> 120 days) excluded

13. Comorbid Risks Variable* Frequency [%] Cardiac Disease 42% Renal Disease 11% Hepatic Disease 6% Hypokalemia/ 17% Hypomagnesemia * Frequency of concomitant risks based upon occurrence in AERS reports

14. Concomitant Drugs Variable Mean (SD) or Frequency [%] Number of Drugs 4 (3),range: 0-15 Drug Interaction1 31% QT Prolonging2,3 22% mutually exclusive 1. Physician’s Desk Reference (2000) 2. European Heart Journal 2000;21:1216-1231 3. Eur J Clin Pharmacol 2000;56:10-18

15. Concomitant Drugs

16. Clarithromycin and Erythromycin TdP Reports - Contraindicated Drugs N = 49: Clarithromycin = 21 Erythromycin = 28

17. 2. IMS HEALTH

18. Methods • Data Source (1993-2000) • IMS Health’s National Prescription Audit Plus • Retail, out patient prescriptions • Oral formulations only • Data Application • Descriptive representation (annual drug use) • Comparison of relative estimated reporting rate ratios • reports (“numerator”) - domestic, oral-formulation, out-patient • utilization (surrogate analytical population, “denominator”) • cefuroxime used as control

19. * IMS HEALTH’s National Prescription Audit Plus Dirithromycin utilization on average < 500,000/year

20. Macrolides and TdP -Adjusted Report-Utilization Ratio* Drug Reports1Utilization2Ratio (N) (Millions) (Reports/1 million Rx) Clarithromycin 16 900.18 Erythromycin 11 1510.07 Azithromycin 7 124 0.06 Cefuroxime 1 42 0.02 * Ratio based upon domestic, oral-formulation, out-patient reports and 1993-2000 utilization 1. Spontaneous reports, 2. IMS HEALTH’s National Prescription Audit Plus

21. Summary and Conclusions

22. Postmarketing Summary • Demographics of macrolide-associated TdP reflect those described: older, female population. • Concomitant diseases/drugs are prevalent and potentially modifiable risks. • Erythromycin overall accounts for most reports. • Clarithromycin has the greatest reporting rate when considering domestic, out patient, oral cases & accounting for drug utilization. • Clarithromycin and erythromycin TdP reporting rates are 7 and 3.5 times that of cefuroxime, respectively.

23. Limitations • Germane to spontaneous reporting systems • Influence of biases • Specificity of AERS data • Inability to establish causation Reporting Rate Estimates are not synonymous with Incidence Rates

24. Advantages • Systematic pharmacoepidemiological data extraction and evaluation • Cost-efficient • “Best Available Evidence” • Detailed analysis of individual drugs

25. Conclusions • Telithromycin, the first of a new class of antimicrobials related to macrolides, interacts with cytochrome P450 metabolism and prolongs the QT interval. • Recognition of the potential for Torsade de Pointes should clearly be acknowledged. • Monitoring of postmarketing data and development of risk management strategies would be critical if the drug was marketed in the US.

26. http://www.fda.gov/medwatch/ 1-800-FDA-1088