Variably Defined Conduction Block, Temporal Dispersion and Other Electrophysiological Abnormalities in Multifocal Motor Neuropathy: A Multicentre Study

IF 3.9 2区医学 Q1 CLINICAL NEUROLOGY

European Journal of Neurology Pub Date : 2025-10-02 DOI:10.1111/ene.70361

Yusuf A. Rajabally, Young Gi Min, Ahmad Al-Areed, Woohee Ju, Ramamurthy Arunachalam, Jung-Joon Sung, Chinar Osman

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Abstract

Background

The definition of conduction block (CB) is variable in multifocal motor neuropathy (MMN). In current criteria, excessive temporal dispersion (TD) may preclude the recognition of CB and the diagnosis of MMN.

Methods

We retrospectively studied the electrophysiological data of 47 consecutive subjects with MMN and of 69 consecutive controls with upper limb-onset motor neuron disease, from three neuromuscular centres in the United Kingdom and Korea.

Results

Compared to CB defined by compound muscle action potential (CMAP) area reduction (CB-Area) > 30%, CB defined by CMAP amplitude reduction (CB-amp) > 30% was more sensitive (78.7% vs. 63.8%; McNemar's Test: p = 0.008), but less specific versus controls (90.1% vs. 96.7%; McNemar's Test: p = 0.001). CB-amp > 30% offered greater diagnostic accuracy than CB-Area > 30% (Youden's Index: 0.688 vs. 0.606). TD showed a sensitivity of 59.6% and specificity of 94.3%. F-wave prolongation or absence showed a sensitivity of 42.6% and specificity of 96.9%. Considering CB-amp > 30% or TD or F-wave prolongation or absence, as independent electrodiagnostic markers of MMN, improved diagnostic sensitivity from 78.7% to 91.5% compared to CB-amp > 30% alone (McNemar's Test: p = 0.031), also offering optimal accuracy (Youden's Index: 0.816). Within this three-parameter combination, CB defined by CMAP amplitude reduction > 30% offered similar sensitivity, specificity and accuracy to when defined by CMAP amplitude reduction > 50%.

Conclusions

CB-amp has higher sensitivity and accuracy than CB-Area for the electrodiagnosis of MMN. Consideration of TD or F-wave prolongation or absence, as independently diagnostic of MMN, in addition to CB-amp > 30% alone, may improve electrophysiological sensitivity as well as accuracy.

Abstract Image

查看原文本刊更多论文

多灶性运动神经病的可变传导阻滞、时间弥散和其他电生理异常：一项多中心研究。

背景：传导阻滞（CB）的定义在多灶性运动神经病（MMN）中是可变的。在目前的标准中，过度的时间弥散（TD）可能会妨碍对CB的识别和MMN的诊断。方法：我们回顾性研究了来自英国和韩国三个神经肌肉中心的47例连续MMN患者和69例连续对照的上肢运动神经元疾病患者的电生理数据。结果：与复合肌动作电位（CMAP）面积减少(CB- area) > 30%定义的CB相比，CMAP幅度减少(CB-amp) > 30%定义的CB更敏感（78.7% vs. 63.8%； McNemar试验：p = 0.008），但与对照组相比特异性较低（90.1% vs. 96.7%； McNemar试验：p = 0.001）。CB-amp > 30%的诊断准确率高于CB-Area > 30%（约登指数：0.688对0.606）。TD的敏感性为59.6%，特异性为94.3%。f波延长或缺失的敏感性为42.6%，特异性为96.9%。将CB-amp > 30%或TD或f波延长或缺失作为MMN的独立电诊断指标，与单独使用CB-amp > 30%相比，将诊断灵敏度从78.7%提高到91.5% (McNemar's Test: p = 0.031)，也提供了最佳准确性（约登指数：0.816）。在这三参数组合中，CMAP减幅> 30%定义的CB与CMAP减幅> 50%定义的CB具有相似的灵敏度、特异性和准确性。结论：CB-amp电诊断MMN的灵敏度和准确性均高于CB-Area。考虑TD或f波的延长或缺失，作为MMN的独立诊断，除了单独的CB-amp > 30%，可以提高电生理敏感性和准确性。

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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来源期刊

European Journal of Neurology 医学-临床神经学

CiteScore

9.70

自引率

2.00%

发文量

418

审稿时长

1 months

期刊介绍： The European Journal of Neurology is the official journal of the European Academy of Neurology and covers all areas of clinical and basic research in neurology, including pre-clinical research of immediate translational value for new potential treatments. Emphasis is placed on major diseases of large clinical and socio-economic importance (dementia, stroke, epilepsy, headache, multiple sclerosis, movement disorders, and infectious diseases).