摘要
探讨了运动震荡后神经可塑性恢复的多种治疗策略,旨在为临床提供基于证据的指导。重点研究了早期介入的重要性及运动疗法在促进神经可塑性中的作用,并分析了虚拟现实与机器人辅助技术在康复中的应用。研究表明,震荡初期的适当运动干预可以显著提高脑源性神经营养因子的表达,加速神经功能恢复。此外,个性化的运动计划能有效提升康复效果。技术创新为康复训练提供了新可能,通过模拟真实生活情境,来增强训练的针对性和实用性,同时确保患者安全。研究强调,早期识别和评估患者个体差异,并定制康复计划至关重要,未来研究应进一步探索不同康复策略对不同个体的影响,优化技术应用,全面提升患者生活质量。
This study examines various therapeutic strategies for neuroplasticity recovery following sports concussions,aiming to provide evidence-based clinical guidelines.It focuses on the importance of early intervention and the role of exercise therapy in enhancing neuroplasticity,as well as the application of modern technologies like virtual reality and robotic assistance in rehabilitation.The findings indicates that appropriate early exercise interventions significantly increase Brain-Derived nNurotrophic Factor(BDNF) expression,accelerating neurological recovery.Additionally,personalized exercise programs have been proven to enhance rehabilitation outcomes.Technological innovations offer new possibilities for rehabilitation training by simulating real-life scenarios,increasing specificity and practicality while ensuring patient safety.The study emphasizes the importance of early identification and customization of rehabilitation plans based on individual differences,suggesting further research to explore the impact of different rehabilitation strategies on individuals and to optimize the integration of technology to improve overall patient quality of life.
作者
杜方方
DU Fangfang(Linzhou College of Architectural Technology,Anyang,Henan Province,455000 China)
出处
《当代体育科技》
2024年第20期10-13,共4页
Contemporary Sports Technology
基金
河南省职业技术教育学会职业教育教学研究课题(2022-ZJXH-097)。
关键词
运动震荡
神经可塑性
运动康复
神经营养因子
Sports concussion
Neuroplasticity
Exercise rehabilitation
Neurotrophic Factor