Physiochemical and In-Vitro Bioactivity Characterization of Polyvinyl Alcohol / Halloysite Nanotube / Collagen (PVA/HNT/Col) using Freeze-Thawing Method and Spin Coated Technique for Wound Healing Applications
DOI:
https://doi.org/10.37934/aram.125.1.6880Keywords:
Hydrogel, Wound Healing, Polyvinyl alcohol, Collagen, Halloysite nanotube, Freeze thawingAbstract
Hydrogels are still relevant instruments that can support and improve the dynamic biological process of wound healing. This paper modified hydrogel film by combining polyvinyl alcohol (PVA), halloysite nanotube (HNT), and collagen using simple freeze-thawing and spin-coating techniques. The modification aims to improve the physiochemical and in-vitro bioactivity of the PVA/HNT hydrogel films via the inclusion of different concentrations of collagen. 0.092 mm PVA/HNT/Col3 hydrogel film was suggested to have excellent morphological properties with 94.11 % porosity. It also has good tensile properties with excellent hydrophilicity performance at 38.40o contact angle and 83.528% swelling capacity compared to other modified films. In-vitro bioactivity suggested that the PVA/HNT/Col3 are safe and non-toxic toward host tissue and can promote healing at 93.12% wound closure after 24 hours of treatment. Hence, this material displays huge potential as a wound healing matrix template.