伤口愈合
脚手架
积雪草
明胶
伤口护理
生物医学工程
医学
传统医学
化学
外科
生物化学
作者
Xiaoyu Wang,Qian Zhang,Anning Song,Heng Wang,Yi Wu,Wenju Chang,Bo Tian,Jialu Xu,Huaxing Dai,Qingle Ma,Chao Wang,Xiaozhong Zhou
标识
DOI:10.1002/adhm.202303017
摘要
Abstract How to promote wound healing is still a major challenge in the healthcare while macrophages are a critical component of the healing process. Compared to various bioactive drugs, many plants have been reported to facilitate the wound healing process by regulating the immune response of wounds. In this work, a Three‐dimensional (3D) printed hydrogel scaffold loaded with natural Centella asiatica extract (CA extract) is developed for wound healing. This CA@3D scaffold uses gelatin (Gel) and sodium alginate (SA) with CA extract as bio‐ink for 3D printing. The CA extract contains a variety of bioactive compounds that make the various active ingredients in Centella asiatica work in concert. The printed CA@3D scaffold can fit the shape of wound, orchestrate the macrophages and immune responses within the wound, and promote wound healing compared to commercial wound dressings. The underlying mechanism of promoting wound healing is also illuminated by applying multi‐omic analyses. Moreover, the CA extract loaded 3D scaffold also showed great ability to promote wound healing in diabetic chronic wounds. Due to its ease of preparation, low‐cost, biosafety, and therapeutic outcomes, this work proposes an effective strategy for promoting chronic wound healing.
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