Add to ORKGWe used functional magnetic resonance imaging (fMRI) to record human brain activity during slow (30 RPM), fast (60 RPM), passive (30 RPM), and variable rate pedaling. Ten healthy adults participated. After identifying regions of interest, the intensity and volume of brain activation in each region was calculated and compared across conditions (p \u3c .05). Results showed that the primary sensory and motor cortices (S1, M1), supplementary motor area (SMA), and cerebellum (Cb) were active during pedaling. The intensity of activity in these areas increased with increasing pedaling rate and complexity. The Cb was the only brain region that showed significantly lower activity during passive as compared with active pedaling. We conclude that M1, ...
The differences in the neural mechanisms contributing to upper and lower extremity movement have not...
Understanding the learning behavior of brain functional connectivity within motor sequence learning ...
Despite modern imaging techniques, assessing and localizing changes in brain activity during whole-b...
The role of the primary motor cortex and other supraspinal structures in controlling human locomotio...
Background: Prior work indicates that pedaling-related brain activation is lower in people with stro...
Objective: This study characterized the brain electrical activity during pedaling, a locomotor-like ...
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...
Previous studies have shown that mental imagery is a suitable tool to study the progression of the e...
Introduction: The behavioral state of an animal influences ongoing brain activity and is evident whe...
Objective Individuals post-stroke display abnormal Group Ia reflex excitability. Pedaling has been s...
The importance of the central nervous system in endurance exercise has not yet been exhaustively inv...
In athletics, motor performance is determined by different abilities such as technique, endurance, s...
Reports about standardized and repeatable experimental procedures investigating supraspinal activati...
Lower extremity muscle activity pattern changes with different pedaling frequencies. These changes w...
The differences in the neural mechanisms contributing to upper and lower extremity movement have not...
Understanding the learning behavior of brain functional connectivity within motor sequence learning ...
Despite modern imaging techniques, assessing and localizing changes in brain activity during whole-b...
The role of the primary motor cortex and other supraspinal structures in controlling human locomotio...
Background: Prior work indicates that pedaling-related brain activation is lower in people with stro...
Objective: This study characterized the brain electrical activity during pedaling, a locomotor-like ...
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...
Previous studies have shown that mental imagery is a suitable tool to study the progression of the e...
Introduction: The behavioral state of an animal influences ongoing brain activity and is evident whe...
Objective Individuals post-stroke display abnormal Group Ia reflex excitability. Pedaling has been s...
The importance of the central nervous system in endurance exercise has not yet been exhaustively inv...
In athletics, motor performance is determined by different abilities such as technique, endurance, s...
Reports about standardized and repeatable experimental procedures investigating supraspinal activati...
Lower extremity muscle activity pattern changes with different pedaling frequencies. These changes w...
The differences in the neural mechanisms contributing to upper and lower extremity movement have not...
Understanding the learning behavior of brain functional connectivity within motor sequence learning ...
Despite modern imaging techniques, assessing and localizing changes in brain activity during whole-b...