Evaluation of Kollicoat SR 30D and Kollicoat EMM 30D as Matrix Former for Controlled Release Drug Delivery
DOI:
https://doi.org/10.3329/dujps.v4i1.202Keywords:
Kolliocoat SR 30D, Kollicoat EMM 30D, Theophylline, Matrix system, Controlled releaseAbstract
Efficiency of kollicoat EMM 30 D and SR 30D as matrix forming material was investigated. It was found that, theophylline loaded granules prepared with these two polymers could not sustain drug release for a significant period of time. However, compression of these granules into tablets retarded drug release for up to 8 hours. Release was faster from EMM 30D polymeric system than that from SR 30D matrix. Effects of fillers and rate modifiers on drug liberation have been assessed. Incorporation of Avicel RC 591 and starch caused substantial release of theophylline from both the polymeric systems. Avicel PH 101 intensified the retardation effect of both EMM 30D and SR 30D on theophylline release. HPMC 50 cps, when added to the matrix, caused the release of theophylline to follow near zero order pattern. Increasing the content of HPMC in both EMM 30D and SR 30D compressed tablets decreased the rate and extent of theophylline release. In the presence of excipients, no significant differences between rate and extent of drug release from EMM 30D and SR 30D systems were found. Biexponential equation was applied to explore and explain drug release kinetics. It was found that drug release followed Fickian or case I kinetics from EMM 30D compressed tablet while anomalous or non-fickian kinetics of drug release was observed for SR 30D system. Key words: Kolliocoat SR 30D, Kollicoat EMM 30D, Theophylline, Matrix system, Controlled release Dhaka Univ. J. Pharm. Sci. Vol.4(1) 2005 The full text is of this article is available at the Dhaka Univ. J. Pharm. Sci. websiteDownloads
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Hossain, M. S., Jalil, R.- ul, Reza, S., Quadir, M. A., & Hossain, C. (2007). Evaluation of Kollicoat SR 30D and Kollicoat EMM 30D as Matrix Former for Controlled Release Drug Delivery. Dhaka University Journal of Pharmaceutical Sciences, 4(1). https://doi.org/10.3329/dujps.v4i1.202
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