Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticity

Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticity

Objective: The understanding of the spasticity mechanism is still a problem in the literature, as its definition can be made on the basis of more than one parameter. Therefore, we studied alpha motor neuron excitability, dynamic changes based on force production, and patellar tendon (T) reflex in sp...

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Main Authors: Serkan Uslu, Tunca Nüzket, Hilmi Uysal
Format: Article
Language:English
Published: Elsevier 2018-01-01
Series:Clinical Neurophysiology Practice
Online Access:http://www.sciencedirect.com/science/article/pii/S2467981X18300209
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spelling doaj-2183e5e598804a26883d99089d8d54f02020-11-25T01:01:26ZengElsevierClinical Neurophysiology Practice2467-981X2018-01-013127133Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticitySerkan Uslu0Tunca Nüzket1Hilmi Uysal2Akdeniz University, Faculty of Medicine, Biophysics Department, 07070 Antalya, TurkeyAkdeniz University, Faculty of Medicine, Biophysics Department, 07070 Antalya, TurkeyAkdeniz University, Faculty of Medicine, Neurology Department 07070 Antalya, Turkey; Corresponding author at: Akdeniz University, Faculty of Medicine, Neurology and Clinical Neurophysiology Department, B Blok Level 2, Dumlupınar Bulvarı, 07070 Antalya, Turkey.Objective: The understanding of the spasticity mechanism is still a problem in the literature, as its definition can be made on the basis of more than one parameter. Therefore, we studied alpha motor neuron excitability, dynamic changes based on force production, and patellar tendon (T) reflex in spasticity and healthy control groups. Methods: Alpha motor neuron excitability, force production, and patellar T reflex were evaluated through three different test protocols. Motor Unit Number Index (MUNIX) measurement was applied for understanding motor neuron pool properties in the first protocol. Voluntary force production and patellar T reflex parameters were evaluated by voluntary force production and triggering patellar T reflex. Twenty spasticity and 20 healthy volunteers participated in the study. Results: In the spasticity group, both MUNIX numbers and Motor Unit Size Index (MUSIX) numbers were lower than those in the control group. The results for the Ideal Case Motor Unit Count (ICMUC) parameter show that there is no significant difference between spasticity and healthy individuals for low-level contractions, whereas there is a significant difference for high-level contractions (p < 0.05). In the spasticity group, an increase was observed in the ratio of maximal voluntary force to the T reflex triggered force production (Tf/Vf). Conclusion: Spasticity and healthy subjects can be distinguished easily and clearly by evaluating the changes in both kinesiological and electrophysiological findings and the decreasing threshold in the alpha motor neuron pool. Significance: This study shows that such combined methods, which allow the evaluation of the alpha motor neuron pool, as well as kinesiological and electrophysiological parameters, are tools that cannot be overlooked in understanding spasticity. Keywords: Spasticity, MUNIX, Alpha motor neuron, Excitabilityhttp://www.sciencedirect.com/science/article/pii/S2467981X18300209
collection DOAJ
language English
format Article
sources DOAJ
author Serkan Uslu
Tunca Nüzket
Hilmi Uysal
spellingShingle Serkan Uslu
Tunca Nüzket
Hilmi Uysal
Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticity
Clinical Neurophysiology Practice
author_facet Serkan Uslu
Tunca Nüzket
Hilmi Uysal
author_sort Serkan Uslu
title Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticity
title_short Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticity
title_full Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticity
title_fullStr Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticity
title_full_unstemmed Modified motor unit number index (MUNIX) algorithm for assessing excitability of alpha motor neuron in spasticity
title_sort modified motor unit number index (munix) algorithm for assessing excitability of alpha motor neuron in spasticity
publisher Elsevier
series Clinical Neurophysiology Practice
issn 2467-981X
publishDate 2018-01-01
description Objective: The understanding of the spasticity mechanism is still a problem in the literature, as its definition can be made on the basis of more than one parameter. Therefore, we studied alpha motor neuron excitability, dynamic changes based on force production, and patellar tendon (T) reflex in spasticity and healthy control groups. Methods: Alpha motor neuron excitability, force production, and patellar T reflex were evaluated through three different test protocols. Motor Unit Number Index (MUNIX) measurement was applied for understanding motor neuron pool properties in the first protocol. Voluntary force production and patellar T reflex parameters were evaluated by voluntary force production and triggering patellar T reflex. Twenty spasticity and 20 healthy volunteers participated in the study. Results: In the spasticity group, both MUNIX numbers and Motor Unit Size Index (MUSIX) numbers were lower than those in the control group. The results for the Ideal Case Motor Unit Count (ICMUC) parameter show that there is no significant difference between spasticity and healthy individuals for low-level contractions, whereas there is a significant difference for high-level contractions (p < 0.05). In the spasticity group, an increase was observed in the ratio of maximal voluntary force to the T reflex triggered force production (Tf/Vf). Conclusion: Spasticity and healthy subjects can be distinguished easily and clearly by evaluating the changes in both kinesiological and electrophysiological findings and the decreasing threshold in the alpha motor neuron pool. Significance: This study shows that such combined methods, which allow the evaluation of the alpha motor neuron pool, as well as kinesiological and electrophysiological parameters, are tools that cannot be overlooked in understanding spasticity. Keywords: Spasticity, MUNIX, Alpha motor neuron, Excitability
url http://www.sciencedirect.com/science/article/pii/S2467981X18300209
work_keys_str_mv AT serkanuslu modifiedmotorunitnumberindexmunixalgorithmforassessingexcitabilityofalphamotorneuroninspasticity
AT tuncanuzket modifiedmotorunitnumberindexmunixalgorithmforassessingexcitabilityofalphamotorneuroninspasticity
AT hilmiuysal modifiedmotorunitnumberindexmunixalgorithmforassessingexcitabilityofalphamotorneuroninspasticity
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