Understanding EMG PDF Changes With Motor Unit Potential Amplitudes, Firing Rates, and Noise Level Through EMG Filling Curve Analysis

IF 4.8 2区 医学 Q2 ENGINEERING, BIOMEDICAL
Javier Navallas;Cristina Mariscal;Armando Malanda;Javier Rodríguez-Falces
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Abstract

EMG filling curve characterizes the EMG filling process and EMG probability density function (PDF) shape change for the entire force range of a muscle. We aim to understand the relation between the physiological and recording variables, and the resulting EMG filling curves. We thereby present an analytical and simulation study to explain how the filling curve patterns relate to specific changes in the motor unit potential (MUP) waveforms and motor unit (MU) firing rates, the two main factors affecting the EMG PDF, but also to recording conditions in terms of noise level. We compare the analytical results with simulated cases verifying a perfect agreement with the analytical model. Finally, we present a set of real EMG filling curves with distinct patterns to explain the information about MUP amplitudes, MU firing rates, and noise level that these patterns provide in the light of the analytical study. Our findings reflect that the filling factor increases when firing rate increases or when newly recruited motor unit have potentials of smaller or equal amplitude than the former ones. On the other hand, the filling factor decreases when newly recruited potentials are larger in amplitude than the previous potentials. Filling curves are shown to be consistent under changes of the MUP waveform, and stretched under MUP amplitude scaling. Our findings also show how additive noise affects the filling curve and can even impede to obtain reliable information from the EMG PDF statistics.
通过肌电图填充曲线分析,了解肌电图 PDF 随运动单元电位振幅、发射率和噪声水平的变化。
EMG 填充曲线描述了肌肉整个受力范围内的 EMG 填充过程和 EMG 概率密度函数 (PDF) 的形状变化。我们旨在了解生理变量和记录变量与所产生的 EMG 填充曲线之间的关系。因此,我们提出了一项分析和模拟研究,以解释填充曲线模式如何与运动单位电位(MUP)波形和运动单位(MU)发射率(影响 EMG PDF 的两个主要因素)的特定变化以及噪音水平方面的记录条件相关联。我们将分析结果与模拟案例进行了比较,验证了分析结果与分析模型完全一致。最后,我们展示了一组具有独特模式的真实肌电图填充曲线,以解释这些模式根据分析研究提供的有关 MUP 振幅、MU 发射率和噪声水平的信息。我们的研究结果表明,当发射率增加或新招募的运动单元的电位振幅小于或等于前者时,填充因子会增加。另一方面,当新招募的电位振幅大于之前的电位时,填充因子会降低。研究表明,填充曲线在 MUP 波形变化时是一致的,在 MUP 振幅缩放时则会拉伸。我们的研究结果还显示了加性噪声对填充曲线的影响,甚至会妨碍从肌电图 PDF 统计中获得可靠的信息。
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
CiteScore
8.60
自引率
8.20%
发文量
479
审稿时长
6-12 weeks
期刊介绍: Rehabilitative and neural aspects of biomedical engineering, including functional electrical stimulation, acoustic dynamics, human performance measurement and analysis, nerve stimulation, electromyography, motor control and stimulation; and hardware and software applications for rehabilitation engineering and assistive devices.
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