Biopharmaceuticals dissolution

Amidon, G. L., Lennemas, H., Shah, V. P., Crison, J. R. A. A theoretical basis for a biopharmaceutic drug classification the correlation of in vitro drug product dissolution and in vivo bioavailability. Pharm. Res. 1995, 12, 413 20. 

Biopharmaceutical issues to be addressed will include a discussion of the pharmaceutical development process as it relates to in vivo and in vitro performance and the general approach taken concerning bioavailability, bioequivalence, and in vitro dissolution profiles. There should be a comparative analysis of relevant studies—objectives, study design, conduct, outcome, and data analyses. The effects of formulation changes (including different strengths of product and... 

Various dissolution test systems have been developed and several of them now enjoy compendial status in pharmacopeias, for example the reciprocating cylinder (United States Pharmacopeia Apparatus 3), the flow-through apparatus [European Pharmacopoeia (Pharm. Eur.) 2.9.3], or the apparatus for transdermal delivery systems, such as the paddle over disc. Hydrodynamic properties of these and other apparatus have been described only sparingly. The paucity of quantitative data related to hydrodynamics of pharmacopeial dissolution testers is lamentable, since well-controllable hydrodynamics are essential to both biopharmaceutical simulations and quality control. Here, we focus the discussion on the paddle and the basket apparatus, since these are the most important and widely used for oral solid dosage forms. A brief treatise on the hydrodynamics of the flow-through apparatus completes this section. 

Kramer J. The biopharmaceutics classification system—an overview of the current status in relation to IR and MR dosage forms. 1st International Conference on Bioavailability, Bioequivalence and Dissolution Testing, London, 2002. 

Key operating parameters that may change (or be optimized) throughout a product s development and approval cycle are dissolution sampling time points and dissolution limits or specifications by which the dissolution results should be evaluated. The results generated from the dissolution test need to be evaluated and interpreted based on the intended purpose of the test. If the test is used for batch-to-batch control, the results should be evaluated in regard to the established limits or specification value. If the test is being utilized as a characterization test (i.e., biopharmaceutical evaluations, formulation development studies, etc.) the results are usually evaluated by profile comparisons. 

Amidon GL, Lennernas H, Shah VP and Crison JR (1995) A Theoretical Basis for a Biopharmaceutic Drug Classification The Correlation In Vitro Drug Product Dissolution and In Vivo Bioavailability. Pharm Res 12 pp 413-420. 

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