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缺血性脑损伤后腹侧运动前皮质的重组:强制使用的影响。

Reorganization of Ventral Premotor Cortex After Ischemic Brain Injury: Effects of Forced Use.

机构信息

Dept. Rehabilitation Medicine.

Landon Center on Aging.

出版信息

Neurorehabil Neural Repair. 2022 Aug;36(8):514-524. doi: 10.1177/15459683221101622. Epub 2022 May 13.

DOI:10.1177/15459683221101622
PMID:35559809
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9378490/
Abstract

BACKGROUND

Physical use of the affected upper extremity can have a beneficial effect on motor recovery in people after stroke. Few studies have examined neurological mechanisms underlying the effects of forced use in non-human primates. In particular, the ventral premotor cortex (PMV) has been previously implicated in recovery after injury.

OBJECTIVE

To examine changes in motor maps in PMV after a period of forced use following ischemic infarct in primary motor cortex (M1).

METHODS

Intracortical microstimulation (ICMS) techniques were used to derive motor maps in PMV of four adult squirrel monkeys before and after an experimentally induced ischemic infarct in the M1 distal forelimb area (DFL) in the dominant hemisphere. Monkeys wore a sleeved jacket (generally 24 hrs/day) that forced limb use contralateral to the infarct in tasks requiring skilled digit use. No specific rehabilitative training was provided.

RESULTS

At 3 mos post-infarct, ICMS maps revealed a significant expansion of the DFL representation in PMV relative to pre-infarct baseline (mean = +77.3%; n = 3). Regression analysis revealed that the magnitude of PMV changes was largely driven by M1 lesion size, with a modest effect of forced use. One additional monkey examined after ∼18 months of forced use demonstrated a 201.7% increase, unprecedented in non-human primate studies.

CONCLUSIONS

Functional reorganization in PMV following an ischemic infarct in the M1 DFL is primarily driven by M1 lesion size. Additional expansion occurs in PMV with extremely long periods of forced use but such extended constraint is not considered clinically feasible.

摘要

背景

在脑卒中后,使用患侧上肢进行物理治疗可能对运动功能恢复有积极影响。目前仅有少数研究探讨了非人类灵长类动物强制使用的神经机制。此前已有研究表明,腹侧前运动皮层(PMV)与损伤后的恢复有关。

目的

研究在大脑运动皮层(M1)梗死引起缺血性损伤后,通过强制使用上肢来改变 PMV 中的运动图。

方法

在成年松鼠猴的优势半球 M1 远侧前肢区(DFL)发生实验性缺血性梗死之前和之后,使用皮层内微刺激(ICMS)技术在 PMV 中得出运动图。猴子穿着带袖子的夹克(通常每天 24 小时),在需要熟练使用手指的任务中,强制使用与梗死相反的上肢。没有提供专门的康复训练。

结果

在梗死发生后 3 个月,ICMS 图谱显示 PMV 中的 DFL 代表区明显扩大,与梗死前基线相比增加了 77.3%(n=3)。回归分析表明,PMV 变化的幅度主要受 M1 损伤大小的驱动,而强制使用的影响较小。对另外一只在强制使用约 18 个月后检查的猴子进行研究,发现 PMV 增加了 201.7%,这在非人类灵长类动物研究中是前所未有的。

结论

M1 DFL 缺血性梗死后 PMV 中的功能重组主要由 M1 损伤大小驱动。在长时间的强制使用下,PMV 会进一步扩展,但这种长期的限制在临床上是不可行的。

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本文引用的文献

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Forced forelimb use following stroke enhances oligodendrogenesis and functional recovery in the rat.中风后强制使用前肢可增强大鼠少突胶质细胞生成及功能恢复。
Brain Res. 2020 Nov 1;1746:147016. doi: 10.1016/j.brainres.2020.147016. Epub 2020 Jul 15.
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Effects of Subdural Monopolar Cortical Stimulation Paired With Rehabilitative Training on Behavioral and Neurophysiological Recovery After Cortical Ischemic Stroke in Adult Squirrel Monkeys.硬膜下单极皮质刺激联合康复训练对成年松鼠猴皮质缺血性卒中后行为和神经生理恢复的影响
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