Graphene-Based Material-Mediated Immunomodulation in Tissue Engineering and Regeneration: Mechanism and Significance

再生(生物学) 组织工程 免疫系统 再生医学 机制(生物学) 功能(生物学) 伤口愈合 纤维化 神经科学 生物 医学 免疫学 干细胞 细胞生物学 生物医学工程 病理 认识论 哲学
作者
Lingling Ou,Xiner Tan,Shijia Qiao,Junrong Wu,Yuan Su,Wenqiang Xie,Nianqiang Jin,Jiankang He,Ruhui Luo,Xuan Lai,Wenjing Liu,Yanli Zhang,Fujian Zhao,Jia Liu,Yiyuan Kang,Longquan Shao
出处
期刊:ACS Nano [American Chemical Society]
卷期号:17 (19): 18669-18687 被引量:32
标识
DOI:10.1021/acsnano.3c03857
摘要

Tissue engineering and regenerative medicine hold promise for improving or even restoring the function of damaged organs. Graphene-based materials (GBMs) have become a key player in biomaterials applied to tissue engineering and regenerative medicine. A series of cellular and molecular events, which affect the outcome of tissue regeneration, occur after GBMs are implanted into the body. The immunomodulatory function of GBMs is considered to be a key factor influencing tissue regeneration. This review introduces the applications of GBMs in bone, neural, skin, and cardiovascular tissue engineering, emphasizing that the immunomodulatory functions of GBMs significantly improve tissue regeneration. This review focuses on summarizing and discussing the mechanisms by which GBMs mediate the sequential regulation of the innate immune cell inflammatory response. During the process of tissue healing, multiple immune responses, such as the inflammatory response, foreign body reaction, tissue fibrosis, and biodegradation of GBMs, are interrelated and influential. We discuss the regulation of these immune responses by GBMs, as well as the immune cells and related immunomodulatory mechanisms involved. Finally, we summarize the limitations in the immunomodulatory strategies of GBMs and ideas for optimizing GBM applications in tissue engineering. This review demonstrates the significance and related mechanism of the immunomodulatory function of GBM application in tissue engineering; more importantly, it contributes insights into the design of GBMs to enhance wound healing and tissue regeneration in tissue engineering.
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