Walking on two legs is inherently unstable. Still, we humans perform remarkable well at it, mostly without falling. To gain more understanding of the role of the brain in controlling gait stability we measured brain activity using electro-encephalography (EEG) during stabilized and normal walking. Subjects walked on a treadmill in two conditions, each lasting 10 min; normal, and while being laterally stabilized by elastic cords. Kinematics of trunk and feet, electro-myography (EMG) of neck muscles, as well as 64-channel EEG were recorded. To assess gait stability the local divergence exponent, step width, and trunk range of motion were calculated from the kinematic data. We used independent component (IC) analysis to remove movement, EMG, a...
While prior noninvasive (e.g., electroencephalographic) studies suggest that the human primary motor...
Background: Gait impairments during real-world locomotion are common in neurological diseases. Howev...
Contains fulltext : 102544.pdf (publisher's version ) (Open Access)Brain Computer ...
Cortical involvement during upright walking is not well-studied in humans. We analyzed non-invasive ...
Abstract Background Gait impairments during real-world locomotion are common in neurological disease...
Background: Walking is characterized by stable antiphase relations between upper and lower limb move...
Our previous single-pulse transcranial magnetic stimulation (TMS) study revealed that excitability i...
International audienceGait is often considered as an automatic movement but cortical control seems n...
Our previous single-pulse transcranial magnetic stimulation (TMS) study revealed that ex-citability ...
Human gait is a complex process in the central nervous system that results from the integrity of var...
Brain Computer Interfaces could be useful in rehabilitation of movement, perhaps also for gait. Unti...
The study of human locomotion and spatial navigation in a naturalistic paradigm is vastly understudi...
Understanding how the human brain cortex behaves when the dynamical balance is unexpectedly challeng...
Gait is a common but rather complex activity that supports mobility in daily life. It requires indee...
Objective: Recent neuroimaging studies have shown a strong involvement of the cortex as well as brai...
While prior noninvasive (e.g., electroencephalographic) studies suggest that the human primary motor...
Background: Gait impairments during real-world locomotion are common in neurological diseases. Howev...
Contains fulltext : 102544.pdf (publisher's version ) (Open Access)Brain Computer ...
Cortical involvement during upright walking is not well-studied in humans. We analyzed non-invasive ...
Abstract Background Gait impairments during real-world locomotion are common in neurological disease...
Background: Walking is characterized by stable antiphase relations between upper and lower limb move...
Our previous single-pulse transcranial magnetic stimulation (TMS) study revealed that excitability i...
International audienceGait is often considered as an automatic movement but cortical control seems n...
Our previous single-pulse transcranial magnetic stimulation (TMS) study revealed that ex-citability ...
Human gait is a complex process in the central nervous system that results from the integrity of var...
Brain Computer Interfaces could be useful in rehabilitation of movement, perhaps also for gait. Unti...
The study of human locomotion and spatial navigation in a naturalistic paradigm is vastly understudi...
Understanding how the human brain cortex behaves when the dynamical balance is unexpectedly challeng...
Gait is a common but rather complex activity that supports mobility in daily life. It requires indee...
Objective: Recent neuroimaging studies have shown a strong involvement of the cortex as well as brai...
While prior noninvasive (e.g., electroencephalographic) studies suggest that the human primary motor...
Background: Gait impairments during real-world locomotion are common in neurological diseases. Howev...
Contains fulltext : 102544.pdf (publisher's version ) (Open Access)Brain Computer ...