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Bioelectret Materials and Their Bioelectric Effects for Tissue Repair: A Review

材料科学 再生(生物学) 组织修复 电场 纳米技术 组织工程 伤口愈合 压电 生物医学工程 驻极体 内生 神经科学 细胞生物学 生物 医学 免疫学 复合材料 内科学 物理 量子力学
作者
Junfei Li,Yajie Xie,Guodong Liu,Abudureheman Bahatibieke,Jianming Zhao,Jia Kang,Sha Jian,Feilong Zhao,Yudong Zheng
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (30): 38852-38879 被引量:24
标识
DOI:10.1021/acsami.4c07808
摘要

Biophysical and clinical medical studies have confirmed that biological tissue lesions and trauma are related to the damage of an intrinsic electret (i.e., endogenous electric field), such as wound healing, embryonic development, the occurrence of various diseases, immune regulation, tissue regeneration, and cancer metastasis. As exogenous electrical signals, such as conductivity, piezoelectricity, ferroelectricity, and pyroelectricity, bioelectroactives can regulate the endogenous electric field, thus controlling the function of cells and promoting the repair and regeneration of tissues. Materials, once polarized, can harness their inherent polarized static electric fields to generate an electric field through direct stimulation or indirect interactions facilitated by physical signals, such as friction, ultrasound, or mechanical stimulation. The interaction with the biological microenvironment allows for the regulation and compensation of polarized electric signals in damaged tissue microenvironments, leading to tissue regeneration and repair. The technique shows great promise for applications in the field of tissue regeneration. In this paper, the generation and change of the endogenous electric field and the regulation of exogenous electroactive substances are expounded, and the latest research progress of the electret and its biological effects in the field of tissue repair include bone repair, nerve repair, drug penetration promotion, wound healing, etc. Finally, the opportunities and challenges of electret materials in tissue repair were summarized. Exploring the research and development of new polarized materials and the mechanism of regulating endogenous electric field changes may provide new insights and innovative methods for tissue repair and disease treatment in biological applications.
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