用于再生性伤口愈合的干细胞与工程支架

Stem Cells and Engineered Scaffolds for Regenerative Wound Healing.

作者信息

Dash Biraja C, Xu Zhenzhen, Lin Lawrence, Koo Andrew, Ndon Sifon, Berthiaume Francois, Dardik Alan, Hsia Henry

机构信息

Department of Surgery (Plastic), Yale School of Medicine, New Haven, CT 06510, USA.

Department of Public Health Studies, Johns Hopkins University, Baltimore, MD 21218, USA.

出版信息

Bioengineering (Basel). 2018 Mar 9;5(1):23. doi: 10.3390/bioengineering5010023.

DOI:10.3390/bioengineering5010023

PMID:29522497

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5874889/

Abstract

The normal wound healing process involves a well-organized cascade of biological pathways and any failure in this process leads to wounds becoming chronic. Non-healing wounds are a burden on healthcare systems and set to increase with aging population and growing incidences of obesity and diabetes. Stem cell-based therapies have the potential to heal chronic wounds but have so far seen little success in the clinic. Current research has been focused on using polymeric biomaterial systems that can act as a niche for these stem cells to improve their survival and paracrine activity that would eventually promote wound healing. Furthermore, different modification strategies have been developed to improve stem cell survival and differentiation, ultimately promoting regenerative wound healing. This review focuses on advanced polymeric scaffolds that have been used to deliver stem cells and have been tested for their efficiency in preclinical animal models of wounds.

摘要

正常的伤口愈合过程涉及一系列组织有序的生物途径，该过程中的任何故障都会导致伤口变为慢性伤口。不愈合伤口给医疗系统带来负担，且随着人口老龄化以及肥胖症和糖尿病发病率的不断上升，这一负担还将加重。基于干细胞的疗法有治愈慢性伤口的潜力，但迄今为止在临床上收效甚微。当前的研究集中在使用聚合物生物材料系统，该系统可作为这些干细胞的微环境，以提高其存活率和旁分泌活性，最终促进伤口愈合。此外，人们还开发了不同的修饰策略来提高干细胞的存活率和分化能力，最终促进伤口的再生愈合。本综述聚焦于已用于递送干细胞并已在伤口的临床前动物模型中测试其有效性的先进聚合物支架。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ae2/5874889/2226d65f90da/bioengineering-05-00023-g001.jpg

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用于再生性伤口愈合的干细胞与工程支架

Stem Cells and Engineered Scaffolds for Regenerative Wound Healing.

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