Bioequivalence study designs for generic solid oral anticancer drug products: scientific and regulatory considerations.

The demonstration of bioequivalence (BE) between the test and reference products is an integral part of generic drug approval process. A sound BE study design is pivotal to the successful demonstration of BE of generic drugs to their corresponding reference listed drug product. Generally, BE of systemically acting oral dosage forms is demonstrated in a crossover, single-dose in vivo study in healthy subjects. The determination of BE of solid oral anticancer drug products is associated with its own unique challenges due to the serious safety risks involved. Unlike typical BE study in healthy subjects, the safety issues often necessitate conducting BE studies in cancer patients. Such BE studies of an anticancer drug should be conducted without disturbing the patients' therapeutic dosing regimen. Attributes such as drug permeability and solubility, pharmacokinetics, dosing regimen, and approved therapeutic indication(s) are considered in the BE study design of solid anticancer drug products. To streamline the drug approval process, the Division of Bioequivalence posts the Bioequivalence Recommendations for Specific Products guidances on the FDA public website. The objective of this article is to illustrate the scientific and regulatory considerations in the design of BE studies for generic solid oral anticancer drug products through examples.

Improving pediatric dosing through pediatric initiatives: what we have learned.

OBJECTIVE: The goal was to review the impact of pediatric drug studies, as measured by the improvement in pediatric dosing and other pertinent information captured in the drug labeling. METHODS: We reviewed the pediatric studies for 108 products submitted (July 1998 through October 2005) in response to a Food and Drug Administration written request for pediatric studies, and the subsequent labeling changes. We analyzed the dosing modifications and focused on drug clearance as an important parameter influencing pediatric dosing. RESULTS: The first 108 drugs with new or revised pediatric labeling changes had dosing changes or pharmacokinetic information (n = 23), new safety information (n = 34), information concerning lack of efficacy (n = 19), new pediatric formulations (n = 12), and extended age limits (n = 77). A product might have had > or = 1 labeling change. We selected specific examples (n = 16) that illustrate significant differences in pediatric pharmacokinetics. CONCLUSIONS: Critical changes in drug labeling for pediatric patients illustrate that unique pediatric dosing often is necessary, reflecting growth and maturational stages of pediatric patients. These changes provide evidence that pediatric dosing should not be determined by simply applying weight-based calculations to the adult dose. Drug clearance is highly variable in the pediatric population and is not readily predictable on the basis of adult information.

AAPS-FDA workshop white paper: microdialysis principles, application and regulatory perspectives.

Many decisions in drug development and medical practice are based on measuring blood concentrations of endogenous and exogenous molecules. Yet most biochemical and pharmacological events take place in the tissues. Also, most drugs with few notable exceptions exert their effects not within the bloodstream, but in defined target tissues into which drugs have to distribute from the central compartment. Assessing tissue drug chemistry has, thus, for long been viewed as a more rational way to provide clinically meaningful data rather than gaining information from blood samples. More specifically, it is often the extracellular (interstitial) tissue space that is most closely related to the site of action (biophase) of the drug. Currently microdialysis (microD) is the only tool available that explicitly provides data on the extracellular space. Although microD as a preclinical and clinical tool has been available for two decades, there is still uncertainty about the use of microD in drug research and development, both from a methodological and a regulatory point of view. In an attempt to reduce this uncertainty and to provide an overview of the principles and applications of microD in preclinical and clinical settings, an AAPS-FDA workshop took place in November 2005 in Nashville, TN, USA. Stakeholders from academia, industry and regulatory agencies presented their views on microD as a tool in drug research and development.