Please use this identifier to cite or link to this item: http://localhost:8080/xmlui/handle/123456789/2263
Title: Drug-Excipient Compatibility: Preformulation Study with New Grades of Microcrystalline Cellulose from Potential Non-Woody Sources, Sor- ghum and Andropogon
Authors: ALFA, John
Keywords: MCC
Drug-excipient compatibility
Preformulation study
Sorghum
Andropogo
FTIR
Issue Date: 17-Oct-2022
Publisher: Journal of Pharmacy and Pharmaceutical Research
Citation: Alfa J, Chukwu A, Udeala OK (2022) Drug-Excipient Compatibility: Preformulation Study with New Grades of Microcrystalline Cellulose from Potential Non-Woody Sources, Sorghum and Andropogon. J Pharm Res. 6:31
Series/Report no.: Volume 6;No. 6
Abstract: Compatibility of Sorghum and Andropogon Microcrystalline Cellulose (MCC) with acetaminophen, ascorbic acid and metronidazole was examined using FTIR. Tablet characteristics of the binary blends were studied. Drug-excipient ratio was 70:30% w/w for acetaminophen and ascorbic acid while metronidazole was 67:33% w/w. Spectra of the polymer, drug and polymer-drug blends were studied within 400-4000 cm-1 wave number. Characteristic peaks were observed for functional group traits. Tablet batches were obtained for each drug using the derived MCC grades as dry binders, at three different pressure units. Tablets made at fixed pressure units were compared with those of Avi- cel PH 101. Disintegration, friability, crushing strength and dissolution profiles served as bases for assessment. Peaks of functional groups remained within reference range for the drugs in the drugpolymer blends; 1660-1590 (C=C), 1660-1590 (C=O) and 3650-3200 (OH) for acetaminophen; 1700-1630 (C=C), 3650-3250 (OH) for ascorbic acid and 1660-1590 (C=N), 1560-1500 (NO2) for metronidazole. Tablets formulated with the excipients exhibited acceptable hardness, crushing strength, friability and dissolution profiles. The t50 and t80 evaluation returned times of 4-11 and 11-29 min after 24 hrs and 6 months of storage respectively. The results are within acceptable range for non-coated tablets. The new MCC grades compared well with Avicel PH 101 as the mean standard variation for the evaluated tablet properties was less than 5%. Sorghum and Andropogon plants are potential none-woody sources of MCC.
URI: http://localhost:8080/xmlui/handle/123456789/2263
Appears in Collections:Research Articles



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