Synthesis, Characterization and Efficacy of Chemically Crosslinked PVA Hydrogels for Dermal Wound Healing in Experimental Animals

In this study, we have investigated the efficacy of crosslinked polyvinyl alcohol (PVA) hydrogel as a wound dressing material, using rat as the animal model. The hydrogel was synthesized by chemical crosslinking of PVA with potassium persulphate and the crosslinking reaction parameters were optimized. The developed hydrogel was found to possess excellent mechanical properties, high water absorption capacity, gel content, and optimum water vapor transmission rate, indicating its ability to act as an effective wound dressing material. The inherent nontoxic characteristics of PVA remained unaltered after crosslinking. The in vitro diffusion studies of bovine serum albumin (BSA) as model protein, indicated a relatively slow release of protein resulting from its microencapsulation in the polymeric matrix. For in vivo studies, full-thickness excision wounds (2 x 2 cm(2)) were made on the dorsal Surface of rats. The hydrogel was applied on the Wound and changed at regular intervals. For comparison of wound heating ability, a radiation crosslinked PVA-based hydrogel, HiZel was used as a reference control. The wounds treated with PVA hydrogel healed faster as indicated by an increased rate of wound contraction (16.5 days versus 22.0 in control group). Treatment with Hizel led to increase in hydroxyproline in the wound tissue, whereas treatment with PVA hydrogel led to increase in both hydroxyproline as well as hexosamine. This probably provides added strength to the tissue, thereby indicating that PVA hydrogel had higher efficacy than Hizel. The results suggest that chemically crosslinked PVA hydrogel could be used as an effective wound dressing material. (c) 2008 Wiley Periodicals, Inc. J Appl Polym Sci 111: 1400-1408, 2009