An overview of electrospun membranes loaded with bioactive molecules for improving the wound healing process

Abstract

HIGHLIGHTSThe bioactive molecules’ delivery into the wound site improves the healing process.The nanofibers possess attractive properties to act as drug delivery system.The antimicrobial molecules loaded into nanofibers to avoid infections are described.The bioactive molecules loaded into nanofibers to assist healing process are listed.The changes induced on nanofibers’ structural/biological properties are overviewed. ABSTRACT Nowadays, despite the intensive research performed in the area of skin tissue engineering, the treatment of skin lesions remains a big challenge for healthcare professionals. In fact, none of the wound dressings currently used in the clinic is capable of re‐establishing all the native features of skin. An ideal wound dressing must confer protection to the wound from external microorganisms, chemical, and physical aggressions, as well as promote the healing process by stimulating the cell adhesion, differentiation, and proliferation. In recent years different types of wound dressings (such as films, hydrocolloids, hydrogels, micro/nano fibers) have been developed. Among them, electrospun nanofibrous membranes due to their intrinsic properties like high surface area‐to‐volume ratio, porosity and structural similarity with the skin extracellular matrix have been regarded as highly promising for wound dressings applications. Additionally, the nanofibers available in these membranes can act as drug delivery systems, which prompted the incorporation of biomolecules within their structure to prevent skin infections as well as improve the healing process. In this review, examples of different bioactive molecules that have been loaded on polymeric nanofibers are presented, highlighting the antibacterial biomolecules (e.g. antibiotics, silver nanoparticles and natural extracts‐derived products) and the molecules capable of enhancing the healing process (e.g. growth factors, vitamins, and anti‐inflammatory molecules).