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Drug Dosing Based on Weight and Body Surface Area: Mathematical Assumptions and Limitations in Obese Adults


  • Presented in part at the 51st Interscience Conference on Antimicrobial Agents and Chemotherapy, Chicago, Illinois, September 17–20, 2011.

For reprints, visit For questions or comments, contact Manjunath (Amit) P. Pai, Pharm.D., Department of Pharmacy Practice, Albany College of Pharmacy and Health Sciences, O'Brien Room 204, 106 New Scotland Road, Albany, NY 12186; e-mail:


The average weight of adults in the United States has increased by 25 pounds (11 kg) over the past 50 years, with a marginal change in height. Drugs are generally dosed according to one of three approaches: fixed dosing, weight-based dosing, or body surface area–based dosing. Dosing based on body weight or body surface area assumes that drug pharmacokinetic parameters increase in proportion with increasing body size. In contrast, dosing drugs on a fixed basis assumes that drug pharmacokinetic parameters do not increase with body size. Unfortunately, early stages of clinical drug development tend to include adults within a narrow range of body size. This study population does not reflect the current U.S. population distribution and does not permit evaluation of the correct relationship between body size and drug clearance. As a consequence, a weight-based or body surface area–based dosing regimen defined during drug development may not be applicable to U.S. patient populations. These dosing strategies are more likely to result in drug overexposure (weight-based approach) or underexposure (body surface area–based approach) among obese patients. Alternate weight descriptors such as ideal body weight, adjusted body weight, fat-free weight, and lean body weight are used to prevent drug overexposure with weight-based dosing, but their benefits and limitations must be understood. Reappraisal of the drug dosing paradigm is needed in this era of rising obesity; however, until drug-specific reviews can be performed, clinical studies must include patients at the extremes of the weight continuum to ensure applicable dose extrapolation for body size.