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肌萎缩侧索硬化症局灶性的意义:死后下运动神经元损失的头尾分布

Implications of ALS focality: rostral-caudal distribution of lower motor neuron loss postmortem.

作者信息

Ravits John, Laurie Patrick, Fan Yuxin, Moore Dan H

机构信息

Neurogenomics Laboratory, Benaroya Research Institute at Virginia Mason, Seattle, WA 98101, USA.

出版信息

Neurology. 2007 May 8;68(19):1576-82. doi: 10.1212/01.wnl.0000261045.57095.56.

DOI:10.1212/01.wnl.0000261045.57095.56
PMID:17485644
Abstract

BACKGROUND

Because motor manifestations of ALS begin focally and progress contiguously, the anatomic distribution of underlying lower motor neuron and upper motor neuron degeneration should correlate to onset.

OBJECTIVES

To assess the rostral-caudal distribution of lower motor neuron loss in relation to the region of clinical onset.

METHODS

We evaluated 19 ALS postmortem nervous systems from patients whose motor manifestations had begun in different body regions. In each, we looked at four neuraxis levels: hypoglossal nucleus and cervical, thoracic, and lumbar spinal cord. We used light microscopy and devised a technique of particle counting that indexed lower motor neuron loss.

RESULTS

The average overall loss of lower motor neurons in ALS nervous systems was 55%, and the range of loss had a normal distribution that ranged between 8% and 90%. The distribution of lower motor neuron loss was graded within the nervous system relative to onset (p = 0.02 by analysis of variance). In 14 of the 19 nervous systems, the regional lower motor neuron loss within the nervous systems was graded radially away from the region of onset. In 1, radial degeneration seemed likely but did not meet significance. In 2, radial degeneration was apparent but loss was greatest in a region different than that identified as the region of onset. In the remaining 2, lower motor neuron loss was minimal and not graded (both from patients whose motor manifestations had been predominantly upper motor neuron).

CONCLUSION

Lower motor neuron degeneration in ALS is a focal process that advances contiguously, summates over time, and creates graded loss. Stage of degeneration in the nervous system is a function of anatomic location.

摘要

背景

由于肌萎缩侧索硬化症(ALS)的运动表现始于局部并连续进展,因此潜在的下运动神经元和上运动神经元变性的解剖分布应与发病相关。

目的

评估下运动神经元丧失的头-尾分布与临床发病区域的关系。

方法

我们评估了19例ALS患者的死后神经系统,这些患者的运动表现始于身体的不同部位。在每例中,我们观察了四个神经轴水平:舌下神经核以及颈、胸和腰脊髓。我们使用光学显微镜并设计了一种颗粒计数技术来量化下运动神经元丧失。

结果

ALS神经系统中下运动神经元的平均总体丧失率为55%,丧失范围呈正态分布,介于8%至90%之间。下运动神经元丧失的分布在神经系统内相对于发病情况进行分级(方差分析,p = 0.02)。在19个神经系统中的14个中,神经系统内区域下运动神经元丧失从发病区域呈放射状分级。在1例中,放射状变性似乎存在但未达到显著水平。在2例中,放射状变性明显,但丧失在与确定为发病区域不同的区域最大。在其余2例中,下运动神经元丧失极少且未分级(均来自运动表现主要为上运动神经元的患者)。

结论

ALS中的下运动神经元变性是一个局部过程,连续进展,随时间累加并造成分级丧失。神经系统中的变性阶段是解剖位置的函数。

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