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Bioactive hemostatic materials: a new strategy for promoting wound healing and tissue regeneration

Zhengyuan Liu, Junnan Xu, Xing Wang

2025MedComm22 citationsDOIOpen Access PDF

Abstract

Wound healing remains a critical global healthcare challenge, with an annual treatment cost exceeding $50 billion worldwide. Over the past decade, significant advances in wound care have focused on developing sophisticated biomaterials that promote tissue regeneration and prevent complications. Despite these developments, there remains a crucial need for multifunctional wound healing materials that can effectively address the complex, multiphase nature of wound repair while being cost effective and easily applicable in various clinical settings. This review systematically analyzes the latest developments in wound healing materials, examining their chemical composition, structural design, and therapeutic mechanisms. We comprehensively evaluate various bioactive components, including natural polymers, synthetic matrices, and hybrid composites, along with their different forms, such as hydrogels, powders, and smart dressings. Special attention is given to emerging strategies in material design that integrate multiple therapeutic functions, including sustained drug delivery, infection prevention, and tissue regeneration promotion. The insights provided in this review illuminate the path toward next-generation wound healing materials, highlighting opportunities for developing more effective therapeutic solutions that can significantly improve patient outcomes and reduce healthcare burden.

Topics & Concepts

Regeneration (biology)Wound healingWound careIntensive care medicineWound dressingTissue repairMedicineBiomedical engineeringMaterials scienceSurgeryBiologyCell biologyComposite materialWound Healing and TreatmentsHemostasis and retained surgical itemsSurgical Sutures and Adhesives
Bioactive hemostatic materials: a new strategy for promoting wound healing and tissue regeneration | Litcius