2022
DOI: 10.2196/34307
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Technology-Based Compensation Assessment and Detection of Upper Extremity Activities of Stroke Survivors: Systematic Review

Abstract: Background Upper extremity (UE) impairment affects up to 80% of stroke survivors and accounts for most of the rehabilitation after discharge from the hospital release. Compensation, commonly used by stroke survivors during UE rehabilitation, is applied to adapt to the loss of motor function and may impede the rehabilitation process in the long term and lead to new orthopedic problems. Intensive monitoring of compensatory movements is critical for improving the functional outcomes during rehabilitat… Show more

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Cited by 15 publications
(5 citation statements)
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“…Determining future research directions related to gait biofeedback in context of evolving technologies [15] The application of VR in motor rehabilitation after stroke 1) The technologies used in VR rehabilitation, including sensors 2) The clinical application of and evidence for VR in stroke rehabilitation 3) Considerations for VR application in stroke rehabilitation. [16] Discussing the shortcomings of various sensors in compensation evaluation and detection Explore how technology-based methods were used to assess and detect compensation without the constant care of therapists [17] Aggregating both quantitative and qualitative knowledge from clinical research with wearable sensor technology in individuals with epilepsy, PD, and stroke Summarizing clinical application areas for all three diseases, key functions and clinical attributes measured by wearables, the proportion of reported missing data, compliance, and perceived experiences and preferences of wearables. [18] Reviewing patient demographics, the type of wearable technology used, gait parameter assessments, and measures of reliability and validity…”
Section: Reviewmentioning
confidence: 99%
“…Determining future research directions related to gait biofeedback in context of evolving technologies [15] The application of VR in motor rehabilitation after stroke 1) The technologies used in VR rehabilitation, including sensors 2) The clinical application of and evidence for VR in stroke rehabilitation 3) Considerations for VR application in stroke rehabilitation. [16] Discussing the shortcomings of various sensors in compensation evaluation and detection Explore how technology-based methods were used to assess and detect compensation without the constant care of therapists [17] Aggregating both quantitative and qualitative knowledge from clinical research with wearable sensor technology in individuals with epilepsy, PD, and stroke Summarizing clinical application areas for all three diseases, key functions and clinical attributes measured by wearables, the proportion of reported missing data, compliance, and perceived experiences and preferences of wearables. [18] Reviewing patient demographics, the type of wearable technology used, gait parameter assessments, and measures of reliability and validity…”
Section: Reviewmentioning
confidence: 99%
“…As planar robots constitute a standard paradigm for upper limb rehabilitation, the design of these devices should be modified to achieve a greater involvement of the distal segment, or additional exercises of the distal region should be administered in case of using planar robots. The excessive shoulder cocontraction following conventional therapy could be related to a less precise and repeatable, and therefore less effective, therapeutic effect [40] compared to the robotic therapy, on the well-known problems of shoulder impairments after stroke both in terms of glenohumeral joint injury [41] and overuse in the adopted compensatory strategy [42].…”
Section: Treatment Effectsmentioning
confidence: 99%
“…Moreover, compensatory actions, such as elbow flexion, are frequently observed during hemiplegic shoulder flexion [ 20 ], and the excessive use of compensatory actions leads to a reduced range of joint motion, pain, and limited functional improvement in the hemiplegic upper-extremity [ 21 ]. Therefore, abnormal movements during shoulder elevation should be minimized.…”
Section: Introductionmentioning
confidence: 99%