Natural Polymer‐Based Materials for Wound Healing Applications

Abstract

Skin injuries pose significant health challenges, with conditions like burns and diabetic, venous, and pressure ulcers presenting complex wound management scenarios. Effective wound care strategies for these injuries encompass a range of interventions, from simple wound dressings to bioactive materials and surgical procedures involving skin substitutes and skin grafting. This review explores the potential of natural polymers, including silk, collagen, gelatin, elastin, cellulose, chitosan, alginate, and hyaluronic acid, in wound management. Natural polymers offer several advantages, including abundance, biodegradability, and compatibility with traditional and modern material fabrication techniques, and have demonstrated safety and efficacy in clinical applications, modulating various facets of the wound healing process. Highlighting preclinical and clinical studies, along with commercial products, this review showcases the versatility and utility of natural polymers in wound management and provides insights into emerging developments, such as 3D bioprinting and stimuli‐responsive materials, which hold promise for personalized wound treatments. Additionally, we discuss the importance of the material format and morphology in engineering the next generation of wound dressings and skin substitutes, offering a pathway to optimize natural polymers for enhanced wound healing outcomes.