Adhesive silk fibroin/magnesium composite films and their application for removable wound dressing.

Abstract

Silk fibroin is a naturally abundant biomaterial renowned for its excellent biocompatibility and biodegradability, making it a promising candidate for biomedical applications like wound dressings. However, traditional silk fibroin materials often lack sufficient mechanical strength, adhesion, and the ability to modulate inflammation and oxidative stress-factors crucial for effective wound healing. To address these limitations, regenerated silk fibroin/magnesium ion [RSF/Mg(II)] composite films were developed by incorporating Mg(II) ions into RSF solutions. These films were characterized using Raman spectroscopy, mechanical testing, and biocompatibility assessments, and their wound-healing efficacy was evaluated in a mouse skin defect model. The RSF/Mg(II) composite films exhibited superior adhesion, higher transparency, and enhanced mechanical flexibility compared to pristine RSF films. They also demonstrated anti-inflammatory and antioxidative properties, effectively reducing cell apoptosis and reactive oxygen species levels in vitro. In vivo, the RSF/Mg Mg(II) composite films significantly accelerated wound healing in mice, improving epidermal thickness, collagen deposition, and promoting blood vessel formation. This study highlights the potential of RSF/Mg(II) composite films as advanced wound dressings with improved biocompatibility and biological activity, offering valuable insights for the development of Mg(II) ion-based biomaterials in wound healing and tissue regeneration applications.