Revisiting the compound muscle action potential (CMAP)

IF 2 Q3 NEUROSCIENCES Clinical Neurophysiology Practice Pub Date : 2024-01-01 DOI:10.1016/j.cnp.2024.04.002

Paul E. Barkhaus , Sanjeev D. Nandedkar , Mamede de Carvalho , Michael Swash , Erik V. Stålberg

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Abstract

The compound muscle action potential (CMAP) is among the first recorded waveforms in clinical neurography and one of the most common in clinical use. It is derived from the summated muscle fiber action potentials recorded from a surface electrode overlying the studied muscle following stimulation of the relevant motor nerve fibres innervating the muscle. Surface recorded motor unit potentials (SMUPs) are the fundamental units comprising the CMAP. Because it is considered a basic, if not banal signal, what it represents is often underappreciated. In this review we discuss current concepts in the anatomy and physiology of the CMAP. These have evolved with advances in instrumentation and digitization of signals, affecting its quantitation and measurement.

It is important to understand the basic technical and biological factors influencing the CMAP. If these influences are not recognized, then a suboptimal recording may result. The object is to obtain a high quality CMAP recording that is reproducible, whether the study is done for clinical or research purposes.

The initial sections cover the relevant CMAP anatomy and physiology, followed by how these principles are applied to CMAP changes in neuromuscular disorders. The concluding section is a brief overview of CMAP research where advances in recording systems and computer-based analysis programs have opened new research applications. One such example is motor unit number estimation (MUNE) that is now being used as a surrogate marker in monitoring chronic neurogenic processes such as motor neuron diseases.

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重新审视复合肌肉动作电位 (CMAP)

复合肌肉动作电位（CMAP）是临床神经影像学中最早记录的波形之一，也是临床上最常用的波形之一。它是在刺激支配肌肉的相关运动神经纤维后，从研究肌肉表面电极记录到的肌纤维动作电位的总和。表面记录的运动单位电位（SMUP）是构成 CMAP 的基本单位。由于它被认为是一种基本甚至是平庸的信号，它所代表的意义往往不被重视。在本综述中，我们将讨论 CMAP 解剖学和生理学的当前概念。了解影响 CMAP 的基本技术和生物因素非常重要。了解影响 CMAP 的基本技术和生物因素非常重要，如果认识不到这些影响因素，就可能导致记录效果不佳。无论研究是出于临床还是研究目的，我们的目标都是获得高质量、可重复的 CMAP 记录。首节介绍相关的 CMAP 解剖学和生理学，随后介绍如何将这些原理应用于神经肌肉疾病中的 CMAP 变化。最后一节简要概述了 CMAP 研究，记录系统和基于计算机的分析程序的进步开辟了新的研究应用领域。其中一个例子是运动单位数量估算（MUNE），它现在被用作监测慢性神经源性过程（如运动神经元疾病）的替代标记。

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

Clinical Neurophysiology Practice NEUROSCIENCES-

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

71 days

期刊介绍： Clinical Neurophysiology Practice (CNP) is a new Open Access journal that focuses on clinical practice issues in clinical neurophysiology including relevant new research, case reports or clinical series, normal values and didactic reviews. It is an official journal of the International Federation of Clinical Neurophysiology and complements Clinical Neurophysiology which focuses on innovative research in the specialty. It has a role in supporting established clinical practice, and an educational role for trainees, technicians and practitioners.