2020-08-012024-05-18https://scholars.lib.ntu.edu.tw/handle/123456789/700490摘要：本研究探討中風患者在錯誤增強式步態適應時的腦部活化情形，並與健康人做比較。實驗使用雙帶跑步機，雙側跑帶不同速度時稱為分帶；當雙側跑帶同速度運行則為合帶。受試者進行分帶以及合帶的行走並同時記錄當下之步態表現以及腦部活化。步態參數包含步頻、步長、跨步時間、擺動期百分比、時間與空間變異性以及步態對稱性。腦部活化以功能性近紅外光分析儀紀錄，目標區域為前運動皮質區、運動輔助區及內側主要動作皮質區。<br> Abstract: This study is proposed to document the effect and further implementation of error-augmented walking on gait performance and brain activities in individuals with stroke. Note that brain activations of post-stroke individuals during locomotion is a relatively unexplored realm. This study aims to observe the brain activity of post-stroke and healthy participants when they walk on the spilt-belt treadmill, which inputs errors and causing adaptation during locomotion. Second year, study focuses on the long-term effect in aspect of brain activation and gait performance after training the post-stroke individuals with error-augmented treadmill walking. Lastly, study aim to investigate the long-term effect of practically applying the concept of error-augmented training strategy into clinical physical therapy.錯誤增強步態對稱性大腦活化中風雙帶跑步機步態適應error augmentationgait symmetrybrain activationstrokespilt-belt treadmillwalking adaptation