Brain imaging of locomotion in neurological conditions
Impaired locomotion is a frequent and major source of disability in patients with neurological
conditions. Different neuroimaging methods have been used to understand the brain …
conditions. Different neuroimaging methods have been used to understand the brain …
Cortical oscillations during gait: Wouldn't walking be so automatic?
A Delval, M Bayot, L Defebvre, K Dujardin - Brain sciences, 2020 - mdpi.com
Gait is often considered as an automatic movement but cortical control seems necessary to
adapt gait pattern with environmental constraints. In order to study cortical activity during real …
adapt gait pattern with environmental constraints. In order to study cortical activity during real …
Children with unilateral cerebral palsy utilize more cortical resources for similar motor output during treadmill gait
Children with unilateral cerebral palsy (CP) walk independently although with an
asymmetrical, more poorly coordinated pattern compared to their peers. While gait …
asymmetrical, more poorly coordinated pattern compared to their peers. While gait …
EEG dynamics of locomotion and balancing: solution to neuro-rehabilitation
The past decade has witnessed tremendous growth in analyzing the cortical representation
of human locomotion and balance using Electroencephalography (EEG). With the advanced …
of human locomotion and balance using Electroencephalography (EEG). With the advanced …
Comparative effects of passive and active mode robot-assisted gait training on brain and muscular activities in sub-acute and chronic stroke
J Shin, HG An, S Yang, C Park, Y Lee… - …, 2022 - journals.sagepub.com
BACKGROUND: Robot-assisted gait training (RAGT) was initially developed based on the
passive controlled (PC) mode, where the target or ideal locomotor kinematic trajectory is …
passive controlled (PC) mode, where the target or ideal locomotor kinematic trajectory is …
Mobile neuroimaging: What we have learned about the neural control of human walking, with an emphasis on EEG-based research
Our understanding of the neural control of human walking has changed significantly over the
last twenty years and mobile brain imaging methods have contributed substantially to …
last twenty years and mobile brain imaging methods have contributed substantially to …
Real-time identification of knee joint walking gait as preliminary signal for developing lower limb exoskeleton
An exoskeleton is a device used for walking rehabilitation. In order to develop a proper
rehabilitation exoskeleton, a user's walking intention needs to be captured as the initial step …
rehabilitation exoskeleton, a user's walking intention needs to be captured as the initial step …
EEG artifact correction strategies for online trial-by-trial analysis
AM de Freitas, G Sanchez, F Lecaignard… - Journal of Neural …, 2020 - iopscience.iop.org
Brain–machine interfaces (BMIs) use brain signals to control closed-loop systems in real-
time. This comes with substantial challenges, such as having to remove artifacts in order to …
time. This comes with substantial challenges, such as having to remove artifacts in order to …
Otomatik ve istemli başlatılan alt ekstremite motor hareketine eşlik eden beyin hemodinamik ve elektrofizyolojik mekanizmalarının incelenmesi
S Avcı - 2022 - acikerisim.medipol.edu.tr
İnsan hareketleri uyarana yanıt olarak başlatılan (otomatik) ve kendiliğinden başlatılan
(istemli) hareketler olmak üzere iki türe ayrılmaktadır. Bilinçli kararlarımızı günlük hareketler …
(istemli) hareketler olmak üzere iki türe ayrılmaktadır. Bilinçli kararlarımızı günlük hareketler …
Interaction attention-motricité chez le sujet sain et parkinsonien: mécanismes et modulation
M Bayot - 2020 - theses.hal.science
L'initiation de la marche est un programme moteur qui n'est pas entièrement automatisé et
varie selon les capacités attentionnelles. Des troubles moteurs et un déclin cognitif …
varie selon les capacités attentionnelles. Des troubles moteurs et un déclin cognitif …