Yucan Yang, Huizhi Chen, Yunjie Li, Junting Liang, Feng Huang, Liyan Wang, Huilai Miao, H. S. Nanda, Jin Wu, Xinsheng Peng, Yubin Zhou
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引用次数: 0
摘要
越来越多的新型生物材料被应用于伤口愈合治疗。基于水凝胶和细胞外囊泡 (EV) 的疗法能创造有益的环境并含有各种生物活性分子,已分别成为伤口愈合的有效方法。此外,这两种成分的协同组合在慢性和急性伤口愈合中都显示出更有利的结果。本综述全面讨论和总结了如何结合应用 EVs 和水凝胶来应对伤口的复杂情况。第一部分概述了伤口愈合过程和相关生物机制。随后,评估并讨论了在伤口愈合过程中使用负载 EV 的水凝胶的情况。水凝胶创造的潮湿环境有利于伤口组织再生。此外,通过水凝胶封装,可以实现持续、可控地释放来自不同来源的 EV。最后,总结了最近有关负载 EVs 的水凝胶敷料的体外和体内研究报告,并概述了这种治疗方法未来临床应用的挑战和机遇。
Hydrogel Loaded with Extracellular Vesicles: An Emerging Strategy for Wound Healing
An increasing number of novel biomaterials have been applied in wound healing therapy. Creating beneficial environments and containing various bioactive molecules, hydrogel- and extracellular vesicle (EV)-based therapies have respectively emerged as effective approaches for wound healing. Moreover, the synergistic combination of these two components demonstrates more favorable outcomes in both chronic and acute wound healing. This review provides a comprehensive discussion and summary of the combined application of EVs and hydrogels to address the intricate scenario of wounds. The wound healing process and related biological mechanisms are outlined in the first section. Subsequently, the utilization of EV-loaded hydrogels during the wound healing process is evaluated and discussed. The moist environment created by hydrogels is conducive to wound tissue regeneration. Additionally, the continuous and controlled release of EVs from various origins could be achieved by hydrogel encapsulation. Finally, recent in vitro and in vivo studies reported on hydrogel dressings loaded with EVs are summarized and challenges and opportunities for the future clinical application of this therapeutic approach are outlined.