Accelerating Botulism Therapeutic Product Development in the Department of Defense

Citation

Stahl, A. M., Adler, M., Millard, C. B., & Gilfillan, L. (2009). Accelerating botulism therapeutic product development in the Department of Defense. Drug Development Research, 70(4), 303-326.

Abstract

Coordinated small-molecule drug discovery research efforts for the treatment of botulism by the public sector, especially the U.S. Department of Defense (DoD) and Department of Health and Human Services (DHHS), began in the 1990s and represent a significant resource investment. Organization of an effective botulism therapeutic drug program, however, presents formidable technical and logistical challenges. Seven distinct BoNT serotypes are known, each representing a different target. Moreover, BoNT exerts its action inside peripheral cholinergic neurons, and some serotypes may persist functionally within nerve cells for weeks or months. Clinical botulism occurs infrequently, and the effectiveness of prolonged mechanical ventilation to treat poisoning further limits experimental drug testing. The efficacy of experimental compounds must be extrapolated from disparate cell- or tissue-based or rodent models. Numerous compounds with moderate efficacy in experimental laboratory assays have been reported, but may not possess the necessary safety, efficacy, and pharmacokinetic profile to support therapeutic development. To mitigate these challenges, we propose product development tools to assist in management of the BoNT portfolio and to clearly define the desired therapeutic product. Establishing a target product profile (TPP) is proposed to guide public sector managers toward critical aspects of the desired therapeutic product. Additional product development tools to assist in shaping research portfolios and to inform decisions regarding lead candidates to pursue are also discussed. Product development tools that facilitate the characterization of the ideal therapeutic product, and assist in the maintenance of a robust portfolio, will ameliorate the inherent financial risk in drug development for treating BoNT intoxication. Drug Dev Res 70:303–326, 2009. Published 2009 Wiley-Liss, Inc.


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