Robot-aided assessment and associated brain lesions of impaired ankle proprioception in chronic stroke.

IF 5.2 2区 医学 Q1 ENGINEERING, BIOMEDICAL Journal of NeuroEngineering and Rehabilitation Pub Date : 2024-06-24 DOI:10.1186/s12984-024-01396-9
Qiyin Huang, Naveen Elangovan, Mingming Zhang, Ann Van de Winckel, Jürgen Konczak
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Abstract

Background: Impaired ankle proprioception strongly predicts balance dysfunction in chronic stroke. However, only sparse data on ankle position sense and no systematic data on ankle motion sense dysfunction in stroke are available. Moreover, the lesion sites underlying impaired ankle proprioception have not been comprehensively delineated. Using robotic technology, this study quantified ankle proprioceptive deficits post-stroke and determined the associated brain lesions.

Methods: Twelve adults with chronic stroke and 13 neurotypical adults participated. A robot passively plantarflexed a participant's ankle to two distinct positions or at two distinct velocities. Participants subsequently indicated which of the two movements was further/faster. Based on the stimulus-response data, psychometric just-noticeable-difference (JND) thresholds and intervals of uncertainty (IU) were derived as measures on proprioceptive bias and precision. To determine group differences, Welch's t-test and the Wilcoxon-Mann-Whitney test were performed for the JND threshold and IU, respectively. Voxel-based lesion subtraction analysis identified the brain lesions associated with observed proprioceptive deficits in adults with stroke.

Results: 83% of adults with stroke exhibited abnormalities in either position or motion sense, or both. JND and IU measures were significantly elevated compared to the control group (Position sense: + 77% in JND, + 148% in IU; Motion sense: +153% in JND, + 78% in IU). Adults with stroke with both impaired ankle position and motion sense had lesions in the parietal, frontal, and temporoparietal regions.

Conclusions: This is the first study to document the magnitude and frequency of ankle position and motion sense impairment in adults with chronic stroke. Proprioceptive dysfunction was characterized by elevated JND thresholds and increased uncertainty in perceiving ankle position/motion. Furthermore, the associated cortical lesions for impairment in both proprioceptive senses were largely overlapping.

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慢性中风患者踝关节本体感觉受损的机器人辅助评估及相关脑损伤。
背景:踝关节本体感觉受损可强烈预测慢性中风的平衡功能障碍。然而,关于中风患者踝关节位置感的数据很少,也没有关于踝关节运动感功能障碍的系统数据。此外,踝关节本体感觉受损的病变部位尚未得到全面界定。本研究利用机器人技术对中风后的踝关节本体感觉障碍进行了量化,并确定了相关的脑损伤部位:方法:12 名慢性中风成人和 13 名神经正常成人参加了研究。机器人将参与者的踝关节被动跖屈到两个不同的位置或以两个不同的速度进行跖屈。参与者随后指出两个动作中哪个更远/更快。根据刺激-反应数据,得出了心理测量的刚注意到的差异(JND)阈值和不确定性区间(IU),作为本体感觉偏差和精确度的测量指标。为了确定组间差异,分别对 JND 阈值和 IU 进行了韦尔奇 t 检验和威尔科森-曼-惠特尼检验。基于体素的病灶减影分析确定了与观察到的中风成人本体感觉障碍相关的脑部病灶:结果:83%的成人中风患者表现出位置感或运动感异常,或两者兼有。与对照组相比,JND 和 IU 测量值明显升高(位置感:JND + 77%,IU + 77%):位置感:JND + 77%,IU + 148%;运动感:JND + 153%,IU + 148%:JND+153%,IU+78%)。踝关节位置感和运动感均受损的中风成人的顶叶、额叶和颞顶叶区域均有病变:这是第一项记录慢性中风成人踝关节位置感和运动感受损程度和频率的研究。踝关节位置/运动感觉障碍的特点是 JND 阈值升高和不确定性增加。此外,造成两种本体感觉障碍的相关皮质病变在很大程度上是重叠的。
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来源期刊
Journal of NeuroEngineering and Rehabilitation
Journal of NeuroEngineering and Rehabilitation 工程技术-工程:生物医学
CiteScore
9.60
自引率
3.90%
发文量
122
审稿时长
24 months
期刊介绍: Journal of NeuroEngineering and Rehabilitation considers manuscripts on all aspects of research that result from cross-fertilization of the fields of neuroscience, biomedical engineering, and physical medicine & rehabilitation.
期刊最新文献
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