慢性脑卒中患者肢体和眼球运动的直觉参照障碍

Neurorehabilitation and neural repair Pub Date : 2025-01-01 Epub Date: 2024-10-15 DOI:10.1177/15459683241289123

Duncan T Tulimieri, Amelia Decarie, Tarkeshwar Singh, Jennifer A Semrau

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引用次数: 0

摘要

背景：上肢本体感觉障碍在中风后很常见，会影响日常功能。最近的研究表明，中风幸存者很难利用视觉信息来改善本体感觉。目前还不清楚中风后眼球运动是如何影响手臂动作的。在此，我们旨在了解上肢本体感觉障碍如何影响中风患者的眼球运动：方法：对照组（N = 20）和中风组（N = 20）的参与者进行上肢和眼球运动的本体感觉匹配任务。使用带有眼动跟踪功能的 KINARM 外骨骼评估肢体和眼球运动学。上肢由机器人被动移动，参与者通过手臂或眼球运动来匹配位置。准确度以机器人被动运动位置与主动肢体匹配（手端点误差）或主动眼球运动匹配（眼端点误差）之间的差值来衡量：结果：我们发现，与对照组相比，中风患者的手部误差（2.1 倍）和眼部误差（1.5 倍）明显更大。此外，我们还发现中风患者手部和眼部的本体感觉误差高度相关（r = .67，P = .001），而对照组患者则没有观察到这种关系：结论：眼球运动的准确性随受影响较大的肢体的本体感觉障碍而下降，该肢体被用作本体感觉参考。无法使用手臂的本体感觉信息来协调眼球运动表明，本体感觉障碍会影响不同模态感觉信息的整合。这些结果对康复过程中如何利用视觉积极引导肢体运动具有重要意义。

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Impairments in Proprioceptively-Referenced Limb and Eye Movements in Chronic Stroke.

Background: Upper limb proprioceptive impairments are common after stroke and affect daily function. Recent work has shown that stroke survivors have difficulty using visual information to improve proprioception. It is unclear how eye movements are impacted to guide action of the arm after stroke. Here, we aimed to understand how upper limb proprioceptive impairments impact eye movements in individuals with stroke.

Methods: Control (N = 20) and stroke participants (N = 20) performed a proprioceptive matching task with upper limb and eye movements. A KINARM exoskeleton with eye tracking was used to assess limb and eye kinematics. The upper limb was passively moved by the robot and participants matched the location with either an arm or eye movement. Accuracy was measured as the difference between passive robot movement location and active limb matching (Hand-End Point Error) or active eye movement matching (Eye-End Point Error).

Results: We found that individuals with stroke had significantly larger Hand (2.1×) and Eye-End Point (1.5×) Errors compared to controls. Further, we found that proprioceptive errors of the hand and eye were highly correlated in stroke participants (r = .67, P = .001), a relationship not observed for controls.

Conclusions: Eye movement accuracy declined as a function of proprioceptive impairment of the more-affected limb, which was used as a proprioceptive reference. The inability to use proprioceptive information of the arm to coordinate eye movements suggests that disordered proprioception impacts integration of sensory information across different modalities. These results have important implications for how vision is used to actively guide limb movement during rehabilitation.

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Neurorehabilitation and neural repair

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