Velocity-dependent suppression of the soleus H-reflex during robot-assisted passive stepping

Velocity-dependent suppression of the soleus H-reflex during robot-assisted passive stepping

•The effect of passive stepping velocity on the soleus H-reflex was studied.•The H-reflexes were smaller during passive stepping than standing.•The H-reflexes significantly decreased at faster stepping velocities. The amplitude of the Hoffmann (H)-reflex in the soleus (Sol) muscle is known to be sup...

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Veröffentlicht in:Neuroscience letters 2015-01, Vol.584, p.337-341
Hauptverfasser: Masugi, Yohei, Kitamura, Taku, Kamibayashi, Kiyotaka, Ogawa, Tetsuya, Ogata, Toru, Kawashima, Noritaka, Nakazawa, Kimitaka
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Sprache:eng
Schlagworte:
Adult
Afferent input
H-Reflex
Hip Joint - physiology
Hoffmann reflex
Humans
Knee Joint - physiology
Leg - physiology
Locomotion
Male
Muscle, Skeletal - physiology
Passive stepping
Posture - physiology
Robotics
Velocity
Walking - physiology
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container_end_page 341
container_issue
container_start_page 337
container_title Neuroscience letters
container_volume 584
creator Masugi, Yohei
Kitamura, Taku
Kamibayashi, Kiyotaka
Ogawa, Tetsuya
Ogata, Toru
Kawashima, Noritaka
Nakazawa, Kimitaka
description •The effect of passive stepping velocity on the soleus H-reflex was studied.•The H-reflexes were smaller during passive stepping than standing.•The H-reflexes significantly decreased at faster stepping velocities. The amplitude of the Hoffmann (H)-reflex in the soleus (Sol) muscle is known to be suppressed during passive stepping compared with during passive standing. The reduction of the H-reflex is not due to load-related afferent inputs, but rather to movement-related afferent inputs from the lower limbs. To elucidate the underlying neural mechanisms of this inhibition, we investigated the effects of the stepping velocity on the Sol H-reflex during robot-assisted passive stepping in 11 healthy subjects. The Sol H-reflexes were recorded during passive standing and stepping at five stepping velocities (stride frequencies: 14, 21, 28, 35, and 42min−1) in the air. The Sol H-reflexes were significantly inhibited during passive stepping as compared with during passive standing, and reduced in size as the stepping velocity increased. These results indicate that the extent of H-reflex suppression increases with increasing movement-related afferent inputs from the lower limbs during passive stepping. The velocity dependence suggests that the Ia afferent inputs from lower-limb muscles around the hip and knee joints are most probably related to this inhibition.
doi_str_mv 10.1016/j.neulet.2014.10.044
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source MEDLINE; Elsevier ScienceDirect Journals
subjects Adult
Afferent input
H-Reflex
Hip Joint - physiology
Hoffmann reflex
Humans
Knee Joint - physiology
Leg - physiology
Locomotion
Male
Muscle, Skeletal - physiology
Passive stepping
Posture - physiology
Robotics
Velocity
Walking - physiology
title Velocity-dependent suppression of the soleus H-reflex during robot-assisted passive stepping
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