Abstract
Dissolution testing is a major tool used to assess a drug product’s performance and as a quality control test for solid oral dosage forms. However, compendial equipment and methods may lack discriminatory power and the ability to simulate aspects of in vivo dissolution. Using low buffer capacity media combined with an absorptive phase (biphasic dissolution) increases the physiologic relevance of in vitro testing. The purpose of this study was to use non-compendial and compendial dissolution test conditions to evaluate the in vitro performance of different formulations. The United States Pharmacopeia (USP)-recommended dissolution method greatly lacked discriminatory power, whereas low buffer capacity media discriminated between manufacturing methods. The use of an absorptive phase in the biphasic dissolution test assisted in controlling the medium pH due to the drug removal from the aqueous medium. Hence, the applied non-compendial methods were more discriminative to drug formulation differences and manufacturing methods than conventional dissolution conditions. In this study, it was demonstrated how biphasic dissolution and a low buffer capacity can be used to assess in vitro drug product performance differences. This can be a valuable approach during the early stages of drug product development for investigating in vitro drug release with improved physiological relevance.
Highlights
In the modern drug development process, a major tool used to asses a drug product’s performance is dissolution testing
In vitro dissolution testing has been used as a quality control (QC) test for solid oral dosage forms and it plays a critical role in enhanced product understanding [2]
In light of the up-to-date mechanistic understanding of in vivo dissolution, there is a current need to rethink how product specifications and performance can be linked through physiologically relevant parameters
Summary
In the modern drug development process, a major tool used to asses a drug product’s performance is dissolution testing. The different compendial dissolution equipment includes the basket (USP apparatus 1), the paddle (USP apparatus 2), the reciprocating cylinder (USP apparatus 3), and the flow-through cell (USP apparatus 4). The latter two are used for extended-release products, whereas apparatus 2 is the most widely applied method [1]. During the drug product development process, in vivo predictive methods are needed for the creation of products of predictable quality [2] In this realm, dissolution testing is a major tool used to asses a drug product’s performance
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