脑卒中亚急性期手部本体感觉和运动功能障碍的演变。

Neurorehabilitation and neural repair Pub Date : 2023-12-01 Epub Date: 2023-11-13 DOI:10.1177/15459683231207355

Monika Zbytniewska-Mégret, Christian Salzmann, Christoph M Kanzler, Thomas Hassa, Roger Gassert, Olivier Lambercy, Joachim Liepert

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引用次数: 1

摘要

背景:手部本体感觉是精细运动和许多日常生活活动所必需的。虽然在中风后经常受损，但目前尚不清楚手本体感觉在亚急性期是如何演变的，以及它是否遵循与运动损伤相似的变化模式。目的:本研究通过机器人、临床和神经生理评估的综合量化，探讨了手本体感觉和运动功能是否存在相应的随时间变化模式。方法:在基线时使用机器人评估评估手指本体感觉(位置感)和运动功能(力、速度、运动范围)(结果:获得45名参与者中风后的完整数据集)。42%的研究参与者本体感觉和运动功能有分离的改变模式(只有一个功能有明显改善)。这种分离要么是由于基线时1个模态没有可测量的损伤，要么是由于中枢性体感觉束或运动束的严重损伤(缺乏SSEP/MEP)。基线时更好的BBT与本体感觉的增加相关，而基线时本体感觉的损伤与BBT的变化无关。结论:在亚急性脑卒中中，本体感觉和运动功能经常发生分离性改变。这突出了监测这两种功能的重要性，这可能有助于进一步个性化治疗。

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The Evolution of Hand Proprioceptive and Motor Impairments in the Sub-Acute Phase After Stroke.

Background: Hand proprioception is essential for fine movements and therefore many activities of daily living. Although frequently impaired after stroke, it is unclear how hand proprioception evolves in the sub-acute phase and whether it follows a similar pattern of changes as motor impairments.

Objective: This work investigates whether there is a corresponding pattern of changes over time in hand proprioception and motor function as comprehensively quantified by a combination of robotic, clinical, and neurophysiological assessments.

Methods: Finger proprioception (position sense) and motor function (force, velocity, range of motion) were evaluated using robotic assessments at baseline (<3 months after stroke) and up to 4 weeks later (discharge). Clinical assessments (among others, Box & Block Test [BBT]) as well as Somatosensory/Motor Evoked Potentials (SSEP/MEP) were additionally performed.

Results: Complete datasets from 45 participants post-stroke were obtained. For 42% of all study participants proprioception and motor function had a dissociated pattern of changes (only 1 function considerably improved). This dissociation was either due to the absence of a measurable impairment in 1 modality at baseline, or due to a severe lesion of central somatosensory or motor tracts (absent SSEP/MEP). Better baseline BBT correlated with proprioceptive gains, while proprioceptive impairment at baseline did not correlate with change in BBT.

Conclusions: Proprioception and motor function frequently followed a dissociated pattern of changes in sub-acute stroke. This highlights the importance of monitoring both functions, which could help to further personalize therapies.

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Neurorehabilitation and neural repair

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