John W Chow1, Stuart A Yablon, Dobrivoje S Stokic. 1. Center for Neuroscience and Neurological Recovery, Methodist Rehabilitation Center, Jackson, MS 39216, USA. jchow@mmrcrehab.org
Abstract
OBJECTIVE: Examine (1) coactivation between tibialis anterior (TA) and medial gastrocnemius (MG) muscles during stance phase of gait in patients with moderate-to-severe resting hypertonia after stroke or traumatic brain injury (TBI) and (2) the relationship between coactivation and stretch velocity-dependent increase in MG activity. METHODS: Gait and surface EMG were recorded from patients with stroke or TBI (11 each) and corresponding healthy controls (n=11) to determine the magnitude and duration of TA-MG coactivation. The frequency and gain of positive (>0) and significant positive (p<0.05) EMG-lengthening velocity (EMG-LV) slope in MG were related to coactivation parameters. RESULTS: The magnitude of coactivation was increased on the more-affected (MA) side, whereas the duration was prolonged on the less-affected (LA) side of both stroke and TBI patients. The difference reached significance during the initial and late double support. The magnitude of coactivation positively correlated with the gain of significant positive EMG-LV slope in TBI patients. CONCLUSIONS: Increased coactivation between TA and MG during initial and late double support is a unique feature of gait in stroke and TBI patients with muscle hypertonia. SIGNIFICANCE: Increased coactivation may represent an adaptation to compensate for impaired stability during step transition after stroke and TBI.
OBJECTIVE: Examine (1) coactivation between tibialis anterior (TA) and medial gastrocnemius (MG) muscles during stance phase of gait in patients with moderate-to-severe resting hypertonia after stroke or traumatic brain injury (TBI) and (2) the relationship between coactivation and stretch velocity-dependent increase in MG activity. METHODS: Gait and surface EMG were recorded from patients with stroke or TBI (11 each) and corresponding healthy controls (n=11) to determine the magnitude and duration of TA-MG coactivation. The frequency and gain of positive (>0) and significant positive (p<0.05) EMG-lengthening velocity (EMG-LV) slope in MG were related to coactivation parameters. RESULTS: The magnitude of coactivation was increased on the more-affected (MA) side, whereas the duration was prolonged on the less-affected (LA) side of both stroke and TBIpatients. The difference reached significance during the initial and late double support. The magnitude of coactivation positively correlated with the gain of significant positive EMG-LV slope in TBIpatients. CONCLUSIONS: Increased coactivation between TA and MG during initial and late double support is a unique feature of gait in stroke and TBIpatients with muscle hypertonia. SIGNIFICANCE: Increased coactivation may represent an adaptation to compensate for impaired stability during step transition after stroke and TBI.
Authors: Silvia Mari; Mariano Serrao; Carlo Casali; Carmela Conte; Giovanni Martino; Alberto Ranavolo; Gianluca Coppola; Francesco Draicchio; Luca Padua; Giorgio Sandrini; Francesco Pierelli Journal: Cerebellum Date: 2014-04 Impact factor: 3.847
Authors: Andres L Jutinico; Jonathan C Jaimes; Felix M Escalante; Juan C Perez-Ibarra; Marco H Terra; Adriano A G Siqueira Journal: Front Neurorobot Date: 2017-08-24 Impact factor: 2.650