Growth factor loaded in situ photocrosslinkable poly(3-hydroxybutyrate-co-3-hydroxyvalerate)/gelatin methacryloyl hybrid patch for diabetic wound healing

伤口愈合 材料科学 血管生成 慢性伤口 体内 自愈水凝胶 明胶 生物医学工程 静电纺丝 表皮生长因子 化学 医学 癌症研究 外科 聚合物 高分子化学 复合材料 生物 生物化学 受体 生物技术
作者
Robin Augustine,Anwarul Hasan,Yogesh Bharat Dalvi,Syed Raza ur Rehman,Ruby Varghese,Raghunath Narayanan Unni,Huseyin C. Yalcin,Rashad Alfkey,Sabu Thomas,Ala‐Eddin Al Moustafa
出处
期刊:Materials Science and Engineering: C [Elsevier BV]
卷期号:118: 111519-111519 被引量:129
标识
DOI:10.1016/j.msec.2020.111519
摘要

Management of chronic diabetic ulcers remains as a major challenge in healthcare which requires extensive multidisciplinary approaches to ensure wound protection, management of excess wound exudates and promoting healing. Developing wound healing patches that can act as a protective barrier and support healing is highly needed to manage chronic diabetic ulcers. In order to boost the wound healing potential of patch material, bioactive agents such as growth factors can be used. Porous membranes made of nanofibers generated using electrospinning have potential for application as wound coverage matrices. However, electrospun membranes produced from several biodegradable polymers are hydrophobic and cannot manage the excess exudates produced by chronic wounds. Gelatin-methacryloyl (GelMA) hydrogels absorb excess exudates and provide an optimal biological environment for the healing wound. Epidermal growth factor (EGF) promotes cell migration, angiogenesis and overall wound healing. Poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) membranes provide microbial, thermal and mechanical barrier properties to the wound healing patch. Herein, we developed a biodegradable polymeric patch based on the combination of mechanically stable electrospun PHBV, GelMA hydrogel and EGF for promoting diabetic wound healing. In vitro and in vivo studies were carried out to evaluate the effect of developed patches on cell proliferation, cell migration, angiogenesis and wound healing. Our results showed that EGF loaded patches can promote the migration and proliferation of multiple types of cells (keratinocytes, fibroblasts and endothelial cells) and enhance angiogenesis. In situ development of the patch and subsequent in vivo wound healing study in diabetic rats showed that EGF loaded patches provide rapid healing compared to control wounds. Interestingly, 100 ng EGF per cm2 of the patches was enough to provide favourable cellular response, angiogenesis and rapid diabetic wound healing. Overall results indicate that EGF loaded PHBV-GelMA hybrid patch could be a promising approach to promote diabetic wound healing.

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