Dexterity in the Acute Phase of Stroke: Impairments and Neural Substrates.

Neurorehabilitation and neural repair Pub Date : 2024-03-01 Epub Date: 2024-02-08 DOI:10.1177/15459683241230029

Eloïse Gerardin, Maxime Regnier, Laurence Dricot, Julien Lambert, Coralie van Ravestyn, Béatrice De Coene, Benoît Bihin, Påvel Lindberg, Yves Vandermeeren

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Abstract

Background: Stroke can impair manual dexterity, leading to loss of independence following incomplete recovery. Enhancing our understanding of dexterity impairment may improve neurorehabilitation.

Objectives: The study aimed to measure dexterity components in acute stroke patients with and without hand motor deficits, compare them to those of healthy controls (HC), and to explore the neural substrates involved in specific components of dexterity.

Methods: We used the Dextrain Manipulandum to quantify fine finger force control, finger selection accuracy, coactivation, and reaction time (RT). Dexterity was evaluated twice (2 days apart) in 74 patients and 14 HC. Voxel-Lesion-Symptom-Mapping (VLSM) was used to analyze the relationship between tissue damage and dexterity. Results. Due to severe paresis or fatigue, 24 patients could not perform these tasks. In 50 patients (included 4.6 ± 3.3 days post-stroke), finger force control improved (P < .001), as it did in HC (P = .03) who performed better than patients on both evaluations. Accuracy of finger selection did not improve significantly in any group, but the HC performed better on both evaluations. Unexpectedly, coactivation was better in patients than in HC at D3 (P = .03). There were no between-group differences in RT. VLSM showed that damage to the superior temporal gyrus (STG) impaired finger force control while damage to the posterior limb of the internal capsule (PLIC) impaired finger selectivity.

Conclusions: Acute stroke affecting the STG or PLIC impaired selective components of dexterity. Patients with mild to moderate impairment showed better finger force control and accuracy selection within 48 hours, suggesting the feasibility of detecting early dexterity improvements.

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中风急性期的灵活性：损伤和神经基础。

背景：脑卒中会损害手的灵活性，导致在不完全恢复后丧失独立性。加强对手部灵活性损伤的了解可改善神经康复：本研究旨在测量有手部运动障碍和无手部运动障碍的急性脑卒中患者的灵活性成分，并将其与健康对照组（HC）进行比较，同时探索灵活性特定成分所涉及的神经基质：我们使用 Dextrain Manipulandum 对手指精细力控制、手指选择准确性、共激活和反应时间（RT）进行量化。对 74 名患者和 14 名 HC 的灵活性进行了两次评估（间隔 2 天）。体素-缺损-症状-映射（VLSM）用于分析组织损伤与灵活性之间的关系。结果显示由于严重瘫痪或疲劳，24 名患者无法完成这些任务。在 50 名患者（包括中风后 4.6 ± 3.3 天）中，手指力量控制有所改善（P P = .03），他们在两项评估中的表现均优于患者。手指选择的准确性在任何组别中都没有明显改善，但高危人群在两项评估中的表现都更好。出乎意料的是，在 D3 阶段，患者的共激活能力优于 HC（P = .03）。在 RT 方面没有组间差异。VLSM 显示，颞上回（STG）的损伤损害了手指的力量控制，而内囊后肢（PLIC）的损伤损害了手指的选择性：结论：影响 STG 或 PLIC 的急性中风损害了手指灵活性的选择性成分。结论：影响 STG 或 PLIC 的急性中风损害了灵活性的选择性成分，轻度至中度损害的患者在 48 小时内表现出更好的手指力量控制和准确性选择，这表明检测早期灵活性改善的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neurorehabilitation and neural repair

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