Open Access
In Vitro Release Testing of Acyclovir Topical Formulations Using Immersion Cells
Author(s) -
Madhur Kulkarni,
Shrikant Potdar,
Abhijit A. Date,
Aditya Marfatiya
Publication year - 2021
Publication title -
assay and drug development technologies
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.402
H-Index - 56
eISSN - 1557-8127
pISSN - 1540-658X
DOI - 10.1089/adt.2020.995
Subject(s) - immersion (mathematics) , chromatography , chemistry , in vitro , membrane , materials science , mathematics , biochemistry , pure mathematics
The objective of the study was to reinforce the applicability of the immersion cells for the in vitro release testing (IVRT) of topical formulations by using marketed acyclovir 5% cream formulation (Cream 1) as a model. The method employing the immersion cells was optimized by studying the effect of variables, such as membrane type, media temperature and volume, agitation speed, and cell size, on acyclovir release from the formulation. The in-house formulation similar to the qualitative and quantitative composition of Cream 1 and the other trial formulations with variable compositions were prepared and studied by using the immersion cells. Various other brands of acyclovir topical formulations available in the Indian market were also subjected to IVRT by using the optimized method. An increase in the media temperature from 32°C to 37°C and the stirring speed from 50 to 100 to 150 rpm led to an increase in the drug release. As the immersion cell size increased (0.5, 2 and 4 cm 2 surface area), the release rate also increased. Nitrocellulose membrane showed the highest drug release and Fluoropore ™ the least. The optimized IVRT method could establish the differences in the drug release rates among the formulations with the altered compositions. The method could also prove its discriminatory potential for various marketed formulations. The immersion cell method could serve as a simpler, facile, and reliable aid during product development and also as a quality control tool in assessing stability, aging, and batch-to-batch uniformity of semisolid formulations.