活动主题:增强控制平衡和流动性的感觉运动整合的新康复技术
活动类型:学术交流
举办单位:医工交叉科创中心
活动时间:2026-6-9 9:00-10:30
活动地点:会议中心1006
面向群体:全院师生
主讲嘉宾:
Joyce Fung于1982年毕业于香港理工大学,获物理治疗专业学位,并于1992年在加拿大魁北克省蒙特利尔的麦吉尔大学取得康复科学博士学位。她现为麦吉尔大学物理与作业治疗学院教授、William Dawson 学者,同时担任位于加拿大魁北克省拉瓦尔市犹太康复医院(蒙特利尔跨学科康复研究中心研究基地)Feil & Oberfeld 研究中心主任。她的研究兴趣包括姿势与平衡控制中基础性感觉-运动整合机制的研究,以及新兴技术在平衡与运动障碍评估和干预中的临床应用,在J NeuroEngineering Rehabil、Neurorehabilitation and Neural Repair等顶级康复期刊发表学术论文。
Joyce Fung received the Professional Diploma in physiotherapy from the Hong Kong Polytechnic University in 1982. She received the Ph.D. degree in rehabilitation science from McGill University, Montreal, QC, Canada, in 1992. She is Professor and William Dawson Scholar at the School of Physical and Occupational Therapy, McGill University. She is also Director at the Feil & Oberfeld Research Centre of the Jewish Rehabilitation Hospital (site of the Montreal Center for Interdisciplinary Research in Rehabilitation), Laval, QC, Canada. Her research interests include the study of basic sensorimotor integration mechanisms in the control of posture and balance, as well as the clinical application of new tools and technologies for the assessment and intervention of balance and mobility disorders. She published several top papers in the journal of J NeuroEngineering Rehabil、Neurorehabilitation and Neural Repair etc.
内容摘要:
平衡与移动能力是人体完成日常活动的重要基础, 其实现依赖于视觉、本体感觉等多种感觉信息与运动系统之间的高效整合。神经系统需要持续接收来自外界环境和身体内部的感觉反馈, 并将这些信息进行加工处理, 从而生成适当的运动指令, 以维持身体姿态稳定并完成行走等复杂运动任务。然而, 在脑卒中等神经系统疾病患者中, 感觉一运动整合能力往往受到不同程度损害, 导致平衡控制能力下降、步态异常以及跌倒风险增加。近年来, 大量新型康复技术被应用于感觉一运动整合训练, 为促进神经可塑性和重建感觉一运动通路提供了新的手段。
Balance and mobility are fundamental prerequisites for the performance of activities of daily living and rely on the efficient integration of multiple sensory inputs, including visual and proprioceptive information, with the motor system. The central nervous system continuously receives sensory feedback from both the external environment and internal body states, processes and integrates this information, and subsequently generates appropriate motor commands to maintain postural stability and execute complex motor tasks such as walking. However, in individuals with neurological disorders, particularly stroke survivors, sensorimotor integration is often impaired to varying degrees, resulting in diminished balance control, gait abnormalities, and an increased risk of falls. ln recent years, a wide range of emerging rehabilitation technologies have been introduced into sensorimotor training, providing novel approaches for promoting neuroplasticity and facilitating the reconstruction of sensorimotor pathways. These technological advances have expanded the possibilities for restoring functional motor performance and improving rehabilitation outcomes in patients with neurological impairments.
联系人:医工交叉科创中心,刘文文
编辑:袁晓慧
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