ABSTRACT
Since skin tissue acts as a vital protective barrier between the body and the external atmosphere, the repair or regeneration of skin injuries serves as a great challenge in regenerative medicine. Herein, hydrogel films composed of poly vinyl alcohol (PVA) and aloe vera (AV) extracted gel were prepared and characterized for wound dressing application. The physical and morphological properties, water absorption capacity, biodegradation behavior, and water transmission rate were characterized for several variations in the AV content (0–50%). The cytocompatibility of the films, as well as cell morphology in response to different films, was assessed using MTT assay and SEM, respectively. According to the results, AV incorporation improved the surface morphology, water absorption capacity, in vitro degradation rate, and water vapor permeability of the PVA films. However, these properties were affected by the AV content. The mechanical properties of the films were enhanced by introducing AV up to 30%, and then decreased significantly with further AV increase. Evaluation of fibroblast proliferation showed that AV can positively improve the bioactivity of the films without any cytotoxicity. In conclusion, the results demonstrated that PVA/AV optimized hydrogel film can be suggested as promising wound dressings for improving wound treatment.