The use of hydrophilic polymers from natural origin. Especially the polysaccharides have been the focus of current research activity in the design of matrix device due to their non toxic, biocompatible, biodegradable nature and broad regulatory acceptance. A large number of polysaccharides such as Carboxymethyl starch, Xanthan gum, Hydroxy propyl methyl cellulose (HPMC), Sodium Alginate etc, have been used as hydrophilic matrices to investigate release behavior of drug. In order to enrich the resources, there is a quest for new polysaccharide owing to their diverse chemical composition and functional groups are amenable to chemical modification and thus tailor made polymeric matrices are obtained which which can be used to modulate oral drug release. The objective of the study is to characterize Verapamil hydrochloride loaded matrix dosage form using hydroxy propyl methyl cellulose (HPMC), xanthan gum, corn starch as rate retarding polymer. Dosage forms were prepared using different polymers along with drug Verapamil hydrochloride. Carboxymethylation was performed. Drug release was evaluated in simulated gastric media. Addition of xanthan gum significantly retarded the burse release of drug. The retardation of drug release was found to be dependent upon the concentration. The formulation composed of HPMC K4M and CS (ARI-ARI3) followed super case transport is swelling controlled, purely relaxation controlled drug delivery.
Keywords: Verapamil HCl, Natural gums, xanthan gum, HPMC, sustained release
pH-Responsive Pickering emulsion stabilized by polymer-coated silica nanoaggregates and applied to recyclable interfacial catalysis