表面改性
周围神经
神经修复
神经科学
周围神经损伤
外周神经系统
接口(物质)
再生(生物学)
智能化
功能(生物学)
桥(图论)
神经损伤
外围设备
神经传导
计算机科学
生物医学工程
纳米技术
神经生长因子
化学
理想(伦理)
周围神经病变
神经外膜修复
材料科学
神经导管
神经系统
医学
机制(生物学)
神经细胞
作者
Qi Meng,Meng Zhang,Miaotian Tang,Haoran Jiang,Yang Qu,Zhentao Ding,Jinqiu Tian,Haoran Zhang,Chenyujun Hu,Zhihao Lin,Bohan Xing,Bojiang Wang,Peixun Zhang
摘要
Peripheral nerve injury represents a major clinical challenge in orthopedics, severely compromising patients' quality of life, and still lacks ideal curative approaches. The emergence of tissue-engineered nerve grafts has provided novel strategies for peripheral nerve repair. During nerve regeneration, the material-tissue interface serves as a pivotal communication bridge between exogenous materials and biological tissues. By transmitting physical, chemical, and biological signals, it modulates the microenvironment for nerve regeneration, thereby significantly influencing repair outcomes. The present article reviews the critical role of the material-tissue interface in peripheral nerve repair, exploring the mechanisms and application prospects of the physical and chemical properties (including surface topology, conductivity, hydrophilicity, stiffness, and adhesion), surface functionalization strategies (such as bioactive factor delivery and metal ion load), and intelligent design (including intelligent responses and phase-adapted responses) for nerve regeneration. This paper aims to provide theoretical support and design insights for constructing ideal neural repair material interfaces, thus advancing the development and clinical translation of favorable peripheral nerve repair materials.
科研通智能强力驱动
Strongly Powered by AbleSci AI