TY - JOUR
T1 - Relationship between the rate of force development in knee extensor muscles and gait speed in patients with chronic stroke
T2 - A cross-sectional study
AU - Takeda, Kazuya
AU - Tanabe, Shigeo
AU - Koyama, Soichiro
AU - Shomoto, Koji
AU - Naoi, Yuki
AU - Sakurai, Hiroaki
AU - Kanada, Yoshikiyo
N1 - Publisher Copyright:
© 2018 IOS Press and the authors. All rights reserved.
PY - 2019
Y1 - 2019
N2 - Background: The relationship between peak torque of the knee extensor muscles and gait speed was previously investigated in patients with chronic stroke, but whether the rate of force development (RFD), another indicator of muscle strength, affected gait speed remained unknown. Objective: To clarify the relationships between the RFD of the knee extensor muscles over multiple time intervals and gait speed in patients with chronic stroke. Methods: Twenty chronic stroke patients participated in this study. The RFD of affected and unaffected knee extensor muscles was measured. Time intervals of the RFD were set to 0-50-ms, 0-100-ms (100RFD), 0-200-ms (200RFD), and 0-300-ms (300RFD). Gait speed was assessed at comfortable and maximum pace. Pearson correlation coefficient (r) was used to analyze the relationships between RFD and gait speeds. Results: The RFD of affected knee extensor muscles over all intervals was moderately correlated with both comfortable and maximum gait speeds, whereas only limited combinations (100, 200 and 300RFD with maximum gait speed) were correlated on the unaffected side. Conclusions: The present results suggest that various factors related to the RFD of affected knee extensor muscles, such as neural drive and muscle size, affect gait speed.
AB - Background: The relationship between peak torque of the knee extensor muscles and gait speed was previously investigated in patients with chronic stroke, but whether the rate of force development (RFD), another indicator of muscle strength, affected gait speed remained unknown. Objective: To clarify the relationships between the RFD of the knee extensor muscles over multiple time intervals and gait speed in patients with chronic stroke. Methods: Twenty chronic stroke patients participated in this study. The RFD of affected and unaffected knee extensor muscles was measured. Time intervals of the RFD were set to 0-50-ms, 0-100-ms (100RFD), 0-200-ms (200RFD), and 0-300-ms (300RFD). Gait speed was assessed at comfortable and maximum pace. Pearson correlation coefficient (r) was used to analyze the relationships between RFD and gait speeds. Results: The RFD of affected knee extensor muscles over all intervals was moderately correlated with both comfortable and maximum gait speeds, whereas only limited combinations (100, 200 and 300RFD with maximum gait speed) were correlated on the unaffected side. Conclusions: The present results suggest that various factors related to the RFD of affected knee extensor muscles, such as neural drive and muscle size, affect gait speed.
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U2 - 10.3233/NRE-182455
DO - 10.3233/NRE-182455
M3 - Article
C2 - 30400113
AN - SCOPUS:85059495496
SN - 1053-8135
VL - 43
SP - 425
EP - 430
JO - NeuroRehabilitation
JF - NeuroRehabilitation
IS - 4
ER -