Preparation of biocompatible PVA hydrogels as wound dressings by gamma irradiation

R. Chiangnoon, P. Karawak, J. Eamsiri, N. Thamrongsiripak, P. Uttayarat, W. Angkhasirisap, S. Ampawong
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Abstract

Hydrogels have emerged as a new class of materials that are capable of providing appropriate moist environment for wound healing. In this report, gamma irradiation was utilized to prepare flexible, self-adhesive, and biocompatible hydrogel sheets from polyvinyl alcohol (PVA) as wound dressings. The PVA concentrations ranged from 6-10 % (w/v) and gamma doses from 10-80 kGy were first varied to optimize the formation of crosslinked, three-dimensional structure of hydrogels. Based on swelling behavior, the 10% (w/v) PVA solution crosslinked at the dose of 40 kGy was selected to fabricate prototypic hydrogel sheets that could conform over skin contour. The extraction-based MTT assay showed that the hydrogel sheets were cytocompatible with L929 cells. When applied on full-thickness defects in rat model, the hydrogel sheets could facilitate re-epithelization to complete wound closure. These results demonstrate that our PVA hydrogel sheets developed by gamma irradiation can serve as a suitable candidate for wound dressings.
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辐照制备生物相容性聚乙烯醇水凝胶创面敷料
水凝胶是一种新型材料,能够为伤口愈合提供适当的潮湿环境。在本报告中,利用伽马射线辐照制备柔性、自粘和生物相容性的聚乙烯醇(PVA)水凝胶片作为伤口敷料。首先改变PVA浓度为6- 10% (w/v), γ剂量为10-80 kGy,以优化交联三维水凝胶结构的形成。根据肿胀行为,选择在40 kGy剂量下交联的10% (w/v) PVA溶液来制作符合皮肤轮廓的原型水凝胶片。基于提取的MTT实验表明,水凝胶片与L929细胞具有细胞相容性。应用于大鼠全层缺损模型时,水凝胶片可促进创面再上皮形成,完成创面闭合。这些结果表明,我们的PVA水凝胶片可以作为合适的候选伤口敷料。
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