Zalewska Ewa, Hausmanowa-Petrusewicz Irena
Institute of Biocybernetics and Biomedical Engineering, Polish Academy of Sciences, Ks. Trojdena 4 Street, 02-109 Warsaw, Poland.
Clin Neurophysiol. 2008 Nov;119(11):2501-6. doi: 10.1016/j.clinph.2008.07.225. Epub 2008 Sep 10.
The aim of this simulation study was to approximate certain features of motor unit structure on the basis of motor unit potential (MUP) analysis.
: The principle of the approximation method has been to invert the procedure used in the simulation of the MUP. An algorithm has been developed that analyses the recorded potential and estimates the number of fibers that contribute to the MUP, their diameters and localization relative to the electrode. These parameters have been determined by minimizing the differences between the recorded and modeled potentials.
The method has been tested on MUPs recorded in the muscles of healthy and diseased subjects. The evaluated range of fiber diameters and densities in a healthy muscle was consistent with its morphological characteristics. In pathological cases, the results of the analysis indicated changes of fiber diameters and densities typical of a given pathological process.
Preliminary results of simulations suggest that the proposed method is a potentially useful tool for the approximation of morphological features of muscle fibers contributing to the MUP.
The analysis of MUPs, in addition to the evaluation of the electrical activity of the muscle with the use of the proposed approximation method, may also permit characterization of muscle morphology, and therefore it may improve the diagnostic value of electromyography.
本模拟研究的目的是基于运动单位电位(MUP)分析来近似运动单位结构的某些特征。
近似方法的原理是颠倒MUP模拟中使用的过程。已开发出一种算法,该算法分析记录的电位,并估计对MUP有贡献的纤维数量、它们的直径以及相对于电极的定位。这些参数通过最小化记录电位与模拟电位之间的差异来确定。
该方法已在健康和患病受试者肌肉中记录的MUP上进行了测试。健康肌肉中评估的纤维直径和密度范围与其形态特征一致。在病理情况下,分析结果表明了特定病理过程中典型的纤维直径和密度变化。
模拟的初步结果表明,所提出的方法是近似对MUP有贡献的肌肉纤维形态特征的潜在有用工具。
除了使用所提出的近似方法评估肌肉的电活动外,MUP分析还可能允许对肌肉形态进行表征,因此可能提高肌电图的诊断价值。
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