The control of bipedal posture in humans is subject to non-ideal conditions such as delayed sensation and heartbeat noise. However, the controller achieves a high level of functionality by utilizing body dynamics dexterously. In order to elucidate the neural mechanism responsible for postural control, the present study made use of an experimental setup involving rats because they have more accessible neural structures. The experimental design requires rats to stand bipedally in order to obtain a water reward placed in a water supplier above them. Their motions can be measured in detail using a motion capture system and a force plate. Rats have the ability to stand bipedally for long durations (over 200 s), allowing for the construction of a...
Bipedal (Bp) locomotion is one of the most characteristic motor behaviors in human beings. Innate qu...
The main goal of this project is to develop a rodent model to study the central command signals gene...
BackgroundProviding weight support facilitates locomotion in spinal cord injured animals. To control...
The control of bipedal posture in humans is subject to non-ideal conditions such as delayed sensatio...
The control of bipedal posture in humans is subject to non-ideal conditions such as delayed sensatio...
Impairment of inferior olivary neurons (IONs) affects whole-body movements and results in abnormal g...
International audienceThe vestibular system plays a crucial role in maintaining postural balance. Un...
Rats walking bipedally in front view (A) and side view (B), using a harness system mounted on a larg...
OBJECTIVE: Decoding forelimb movements from the firing activity of cortical neurons has been interfa...
The purpose of this study was to develop an in-vivo model to record motor neuron (MN) activity in th...
The aim of this study was to define the temporal and spatial (postural) characteristics of the head ...
<p>Given the absence of significant difference between groups for the behavioral features, available...
Abstract Impairment of inferior olivary neurons (IONs) affects whole-body movements and results in a...
Human quiet standing is accompanied by body sway. The amplitude of this body sway is known to be lar...
Contains fulltext : 129527.pdf (publisher's version ) (Closed access)Background: W...
Bipedal (Bp) locomotion is one of the most characteristic motor behaviors in human beings. Innate qu...
The main goal of this project is to develop a rodent model to study the central command signals gene...
BackgroundProviding weight support facilitates locomotion in spinal cord injured animals. To control...
The control of bipedal posture in humans is subject to non-ideal conditions such as delayed sensatio...
The control of bipedal posture in humans is subject to non-ideal conditions such as delayed sensatio...
Impairment of inferior olivary neurons (IONs) affects whole-body movements and results in abnormal g...
International audienceThe vestibular system plays a crucial role in maintaining postural balance. Un...
Rats walking bipedally in front view (A) and side view (B), using a harness system mounted on a larg...
OBJECTIVE: Decoding forelimb movements from the firing activity of cortical neurons has been interfa...
The purpose of this study was to develop an in-vivo model to record motor neuron (MN) activity in th...
The aim of this study was to define the temporal and spatial (postural) characteristics of the head ...
<p>Given the absence of significant difference between groups for the behavioral features, available...
Abstract Impairment of inferior olivary neurons (IONs) affects whole-body movements and results in a...
Human quiet standing is accompanied by body sway. The amplitude of this body sway is known to be lar...
Contains fulltext : 129527.pdf (publisher's version ) (Closed access)Background: W...
Bipedal (Bp) locomotion is one of the most characteristic motor behaviors in human beings. Innate qu...
The main goal of this project is to develop a rodent model to study the central command signals gene...
BackgroundProviding weight support facilitates locomotion in spinal cord injured animals. To control...