Author:
Sivaraj Dharshan,Chen Kellen,Chattopadhyay Arhana,Henn Dominic,Wu Wanling,Noishiki Chikage,Magbual Noah J.,Mittal Smiti,Mermin-Bunnell Alana M.,Bonham Clark A.,Trotsyuk Artem A.,Barrera Janos A.,Padmanabhan Jagannath,Januszyk Michael,Gurtner Geoffrey C.
Abstract
Cutaneous wounds are a growing global health burden as a result of an aging population coupled with increasing incidence of diabetes, obesity, and cancer. Cell-based approaches have been used to treat wounds due to their secretory, immunomodulatory, and regenerative effects, and recent studies have highlighted that delivery of stem cells may provide the most benefits. Delivering these cells to wounds with direct injection has been associated with low viability, transient retention, and overall poor efficacy. The use of bioactive scaffolds provides a promising method to improve cell therapy delivery. Specifically, hydrogels provide a physiologic microenvironment for transplanted cells, including mechanical support and protection from native immune cells, and cell–hydrogel interactions may be tailored based on specific tissue properties. In this review, we describe the current and future directions of various cell therapies and usage of hydrogels to deliver these cells for wound healing applications.
Subject
Biomedical Engineering,Histology,Bioengineering,Biotechnology
Cited by
82 articles.
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