Add to ORKGBackground: Prior work indicates that pedaling-related brain activation is lower in people with stroke than in controls. We asked whether this observation could be explained by between-group differences in volitional motor commands and pedaling performance. Methods: Individuals with and without stroke performed passive and volitional pedaling while brain activation was recorded with functional magnetic resonance imaging. The passive condition eliminated motor commands to pedal and minimized between-group differences in pedaling performance. Volume, intensity, and laterality of brain activation were compared across conditions and groups. Results: There were no significant effects of condition and no Group × Condition interactions for any mea...
The role of the primary motor cortex and other supraspinal structures in controlling human locomotio...
2022 Spring.Includes bibliographical references.Overall introduction: Individuals with stroke experi...
Objective: To determine whether there is sufficient research evidence to justify using pedalling to ...
Background: Prior work indicates that pedaling-related brain activation is lower in people with stro...
The purpose of this study was to examine the feasibility of using functional magnetic resonance imag...
This study aimed to enhance our understanding of supraspinal control of locomotion in stroke survivo...
We used functional magnetic resonance imaging (fMRI) to record human brain activity during slow (30 ...
Objective Individuals post-stroke display abnormal Group Ia reflex excitability. Pedaling has been s...
Objective: This study characterized the brain electrical activity during pedaling, a locomotor-like ...
Long-term motor dysfunction in the lower limb is common after stroke. One potential contributor is m...
Understanding the effect of task compared to rest on detecting stroke-related network abnormalities ...
Motor impairment after stroke has been hypothesized to be related, among others, to impairments in t...
Stroke is a leading cause of adult disability, with gait deficits contributing significantly to func...
and Schindler-Ivens SM (2015) A novel fMRI paradigm suggests that pedaling-related brain activation ...
Cycling training is strongly applied in post-stroke rehabilitation, but how its modular control is a...
The role of the primary motor cortex and other supraspinal structures in controlling human locomotio...
2022 Spring.Includes bibliographical references.Overall introduction: Individuals with stroke experi...
Objective: To determine whether there is sufficient research evidence to justify using pedalling to ...
Background: Prior work indicates that pedaling-related brain activation is lower in people with stro...
The purpose of this study was to examine the feasibility of using functional magnetic resonance imag...
This study aimed to enhance our understanding of supraspinal control of locomotion in stroke survivo...
We used functional magnetic resonance imaging (fMRI) to record human brain activity during slow (30 ...
Objective Individuals post-stroke display abnormal Group Ia reflex excitability. Pedaling has been s...
Objective: This study characterized the brain electrical activity during pedaling, a locomotor-like ...
Long-term motor dysfunction in the lower limb is common after stroke. One potential contributor is m...
Understanding the effect of task compared to rest on detecting stroke-related network abnormalities ...
Motor impairment after stroke has been hypothesized to be related, among others, to impairments in t...
Stroke is a leading cause of adult disability, with gait deficits contributing significantly to func...
and Schindler-Ivens SM (2015) A novel fMRI paradigm suggests that pedaling-related brain activation ...
Cycling training is strongly applied in post-stroke rehabilitation, but how its modular control is a...
The role of the primary motor cortex and other supraspinal structures in controlling human locomotio...
2022 Spring.Includes bibliographical references.Overall introduction: Individuals with stroke experi...
Objective: To determine whether there is sufficient research evidence to justify using pedalling to ...