Regenerative Medicine Approaches for Skin Wound Healing: from Allografts to Engineered Skin Substitutes

Abstract

Abstract Purpose of the Review Recent advancements in tissue engineering and regenerative medicine have paved the way for innovative solutions in skin regeneration, particularly for extensive burns and full-thickness wounds where traditional approaches are limited. The purpose of the review is to explore the integration of bioactive materials, stem cell therapies, and tissue-engineered skin substitutes and their role in revolutionizing wound healing and skin transplantation. Recent Findings Studies leveraging natural and synthetic biomaterials as scaffolds, alongside the regenerative capabilities of mesenchymal stem cells (MSCs) and other cellular therapies, underscore the potential to enhance tissue repair, minimize scarring, and improve overall clinical outcomes. The development of multifunctional biomaterials and the advent of cutting-edge techniques such as 3D bioprinting and nanomedicine further propel the field, offering personalized and effective solutions. As these technologies evolve, they hold promise for more efficient, patient-specific skin grafting, reducing the need for systemic immunosuppression and enhancing graft survival. Summary The critical advancements in biomaterials, stem cell therapies, and tissue engineering, outline a course toward more effective and personalized skin regeneration therapies.