In this work, the swelling and disintegration of drug-free sodium alginate (SA) compacts and the release of metformin HCl from SA matrix tablets were investigated in acidic media of different ethanol concentrations (0, 10, 20, and 40 % v/v), pH (1.2 and 4.5) and HPMC K4M concentrations (0-1 % w/v). The investigated dissolution media represented the consumption of different alcoholic beverages, the pH of fasted and fed states, and a range of viscosity resembling diluted homogenized FDA meal. The dissolution efficiency and the time to 50 % release (t50%) were selected as release parameters. It was found that both ethanol concentration and medium pH affected drug release from SA matrix tablets and the swelling of SA compacts. Dose dumping occurred at high ethanol concentration (40 %) at both media pH with almost complete drug release within 15-30 min associated with rapid matrix disintegration. HPMC at 0.5-1 % concentrations increased the medium's viscosity, preventing dose dumping at high ethanol concentrations. Erosion and disintegration of SA compacts were decelerated by increasing HPMC concentration in hydroethanolic media in consonance with decreased release rate from matrix tablets. ANOVA tests showed significant effects of pH and concentrations of ethanol and HPMC in the dissolution medium on the release parameters.
Keywords: Disintegration; Dose dumping; Ethanol; Matrix tablets; Modified release; Sodium alginate; swelling.
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