偏瘫型脑瘫等同于皮质脊髓系统弱视吗？

Is hemiplegic cerebral palsy equivalent to amblyopia of the corticospinal system?

作者信息

Eyre Janet A, Smith Martin, Dabydeen Lyvia, Clowry Gavin J, Petacchi Eliza, Battini Roberta, Guzzetta Andrea, Cioni Giovanni

机构信息

Department of Developmental Neuroscience, School of Clinical Medical Sciences, University of Newcastle, Newcastle upon Tyne, United Kingdom.

出版信息

Ann Neurol. 2007 Nov;62(5):493-503. doi: 10.1002/ana.21108.

DOI:10.1002/ana.21108

PMID:17444535

Abstract

OBJECTIVE

Subjects with severe hemiplegic cerebral palsy have increased ipsilateral corticospinal projections from their noninfarcted cortex. We investigated whether their severe impairment might, in part, be caused by activity-dependent, competitive displacement of surviving contralateral corticospinal projections from the affected cortex by more active ipsilateral corticospinal projections from the nonaffected cortex, thereby compounding the impairment.

METHODS

Transcranial magnetic stimulation (TMS) characterized corticospinal tract development from each hemisphere over the first 2 years in 32 healthy children, 14 children with unilateral stroke, and 25 with bilateral lesions. Magnetic resonance imaging and anatomic studies compared corticospinal tract growth in 13 patients with perinatal stroke with 46 healthy subjects.

RESULTS

Infants with unilateral lesions initially had responses after TMS of the affected cortex, which became progressively more abnormal, and seven were eventually lost. There was associated hypertrophy of the ipsilateral corticospinal axons projecting from the noninfarcted cortex. Magnetic resonance imaging and anatomic studies demonstrated hypertrophy of the corticospinal tract from the noninfarcted hemisphere. TMS findings soon after the stroke did not predict impairment; subsequent loss of responses and hypertrophy of ipsilateral corticospinal axons from the noninfarcted cortex predicted severe impairment at 2 years. Infants with bilateral lesions maintained responses to TMS from both hemispheres with a normal pattern of development.

INTERPRETATION

Rather than representing "reparative plasticity," increased ipsilateral projections from the noninfarcted cortex compound disability by competitively displacing surviving contralateral corticospinal projections from the infarcted cortex. This may provide a pathophysiological explanation for why signs of hemiplegic cerebral palsy appear late and progress over the first 2 years of life.

摘要

目的

患有严重偏瘫型脑瘫的受试者，其未梗死皮质的同侧皮质脊髓投射增加。我们研究了他们的严重损伤是否部分是由以下原因导致的：未受影响皮质中更活跃的同侧皮质脊髓投射通过活动依赖的竞争性机制，将受影响皮质中存活的对侧皮质脊髓投射取代，从而加重了损伤。

方法

经颅磁刺激（TMS）对32名健康儿童、14名单侧中风儿童和25名双侧病变儿童在出生后的头2年中每个半球的皮质脊髓束发育情况进行了表征。磁共振成像和解剖学研究比较了13名围产期中风患者与46名健康受试者的皮质脊髓束生长情况。

结果

单侧病变的婴儿最初在对受影响皮质进行TMS刺激后有反应，这些反应逐渐变得更加异常，最终有7名婴儿的反应消失。从未梗死皮质投射的同侧皮质脊髓轴突出现了相关的肥大。磁共振成像和解剖学研究显示未梗死半球的皮质脊髓束肥大。中风后不久的TMS结果并不能预测损伤情况；随后反应的丧失以及未梗死皮质同侧皮质脊髓轴突的肥大可预测2岁时的严重损伤。双侧病变的婴儿对来自两个半球的TMS刺激保持反应，且发育模式正常。

解读

未梗死皮质同侧投射的增加并非代表“修复性可塑性”，而是通过竞争性取代梗死皮质中存活的对侧皮质脊髓投射来加重残疾。这可能为偏瘫型脑瘫症状为何在生命的头2年出现较晚且逐渐进展提供了一种病理生理学解释。

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偏瘫型脑瘫等同于皮质脊髓系统弱视吗？

Is hemiplegic cerebral palsy equivalent to amblyopia of the corticospinal system?

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

INTERPRETATION

目的

方法

结果

解读

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