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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/71426


    Title: 中風復健後與虛擬實境物理參數 相關的動作網絡重組;Reorganization of the motor network associated with virtual reality parameters in response to rehabilitation after stroke
    Authors: 黃致榮;Huang,Chih-Jung
    Contributors: 生物醫學工程研究所
    Keywords: 動態因果模型;中風復原機制;虛擬實境復健;動作力學;dynamic casual modeling;recovery mechanism;virtual reality (VR) based rehabilitation;motor kinetics
    Date: 2016-08-17
    Issue Date: 2016-10-13 13:03:40 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 中風後會有三分之二的患者有上肢的運動功能障礙,常規的復健計畫目的在於減少上肢在運動時所受到的阻礙,但是關於患者的復原功效卻是存在著許多變異性。到目前為止,可以介入復原過程中的復原誘發機制尚未被完全了解。我們這項研究的主要目標在檢驗復原過程中有那些相關運動參數的改變,是有利於改善整個大腦的運動網絡。因此我們使用自製的虛擬實境復健系統,記錄病患復健過程中的物理參數,並使用腦電圖搭配動態因果模型的誘發反應用來分析整個運動網絡連結的變化。
    本研究總共招募18位中風受試者,進行20小時為一個療程的虛擬實境復健計畫,頻率為每天至多一個鐘頭,每周五天。我們在虛擬實境復健過程中記錄著每次復健之速度、最大速度、壓力、軌跡、效率等具體的物理參數,此外,我們也會在復健前以及復健後收集腦電波資料與進行Fugl-Meyer上肢動作量表的評估。收集的腦電波資料經由動態因果模型進行,將誘發響應找出最適合當下大腦網絡的模型,透過大腦網絡的連結參數於復健後的變化再與Fugl-Meyer的量表進步率進行相關性分析,找出與復原相關的網絡連結變化。最後,再將顯著有助於復原的網絡連結的變化與復健過程中,運動指標的變化做相關性分析,以確立中風復健後與虛擬實境物理參數相關的動作網絡重組。
    研究結果顯示有22條連結的變化在復健過後是與運動力學參數以及量表進步率有顯著相關,其中投籃項目裡有10條連結,而拋接球項目有12條連結。例如iPM gamma對SMA alpha抑制減弱跟復原相關: 抑制減弱較少的病人復原較好,同時,這減弱與復健系統裡的接觸球前與接觸球後的瞬時速度改變有正相關: 抑制減弱較少的病人瞬時速度會減慢。此外,cM1 beta對SMA alpha的抑制減弱也跟復原相關: 抑制減弱較少的病人復原較好,同時,這減弱與復健系統裡患側手運動的瞬時速度改變有負相關,抑制減弱較少的病人瞬時速度增加。這樣的結果顯示抑制SMA跟調控患側手運動的速度有關。
    總之,我們發現量表進步率與動作網絡的改變在復建的過程中所扮演的功能及作用,再搭配上物理參數的調控並可扮演其中復原的推手。而這項研究的意義在於我們可以利用復健前的腦波資訊,提供一個潛在的復原機制和發展一種建立在所知訊息下而設立的個人化復健療程,並且應用於臨床復健治療來達到更有利的復健療效。
    ;Motor deficits of the affected upper limb (UL) after stroke affect up to two-thirds of stroke patients and conventional rehabilitation aims at reducing UL impairment, but significant variability exists between patients regarding rehabilitation efficacy. To date, the mechanisms induced by rehabilitation that can mediate the recovery process are not fully understood. In this study, we aim to identify the improvement-related motor network alternations that are correlated with the parameters acquired during rehabilitation. To this end, a home-made virtual reality (VR) based rehabilitation programme was designed to record the motion kinetics during rehabilitation treatment and EEG and dynamical causal modelling of induced responses (DCM_IR) were employed to analysis the motor network.
    18 stroke subjects were recruited and underwent a VR based rehabilitation program with the frequency of 1 hour per day, five days a week. The parameters of human kinetics, such as speed/max speed, velocity and trajectory during VR-based rehabilitation were recorded digitally for correlation analysis. Before and after the rehabilitation, EEG data and were acquired during upper limb movements and the Fugl-Meyer Assessment of Physical Performance (FM) was estimated. DCM_IR was used to model the network parameters using EEG data and the changes of DCM_IR parameters after rehabilitation were then tested statistically by ANOVA. Significant changes of DCM_IR parameters were then correlated with the changes of FM scores after rehabilitation (i.e. improvement). Having established the improvement-related motor network changes, we then further tested whether a relationship existed between these changes and the changes of the parameters of motion kinetics during rehabilitation treatment.
    We have identified 22 coupling changes that are significantly correlated with the changes of motor kinetics induced by rehabilitation, of which 10 and 12 network changes were associated with the kinetics changes in the shooting and juggling VR games, respectively. Specifically, less inhibition loss from the ipsilateral pre-motor (iPM) gamma to SMA alpha led to improvements and this inhibitory change is positively correlated with the change in the instantaneous velocity during the shooting game. In addition, in the juggling game, we found that greater cM1 beta inhibition toward SMA alpha through less inhibition loss led to better outcome and this change was negatively related to the change in the instantaneous velocity during the affected hand movement.
    In conclusion, we have shown for the first time the functional role of the improvement-related motor network alternations in response to rehabilitation. The significance of this study is that we provide insights into the underlying recovery mechanism and the finding is translational in the clinical practice to develop a knowledge-based rehabilitation program that can facilitate the rehabilitation efficacy.
    Appears in Collections:[Institute of Biomedical Engineering] Electronic Thesis & Dissertation

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