Previous research showed that force control in a visually guided continuous tracking task is influenced by feedback accuracy and force-varying rate. More specifically it was found that higher feedback accuracy and greater force-varying rate led to decreased task performance. Here we studied the neural signature of these effects using functional MRI. We hypothesised that performance costs were due to increased task demand and reflected by increased activations in the visuomotor network. Using the fMRI-BOLD response as an indirect measure of enhanced brain activity we found that the task induced activations in the visuomotor network. The different task conditions thereby modulated the BOLD response such that those conditions with poorest perf...
Proper understanding of motor control requires insight into the extent and manner in which task perf...
International audienceIn the present functional magnetic resonance imaging experiment, study partici...
Grasp stability during object manipulation is achieved by the grip forces applied normal to the gras...
Previous research showed that force control in a visually guided continuous tracking task is influen...
Objective: To study the effect of visual feedback gain on movement with the whole-brain functional m...
Modulating visual feedback may be a viable option to improve motor function after stroke, but the ne...
A bilateral visuo-parietal-motor network is responsible for fine control of hand movements. However,...
Modulating visual feedback may be a viable option to improve motor function after stroke, but the ne...
Visual feedback is a crucial factor to motor function, and a few parameters, such as gain, delay and...
Brain imaging based on functional magnetic resonance imaging (fMRI) provides a useful tool to examin...
Previous studies have used fMRI to address the relationship between grip force (GF) applied to an ob...
Abstract: Force scaling in the sensorimotor network during generation and control of static or dynam...
Visual feedback is a crucial factor that impacts the motor function, and a number of parameters, suc...
To accurately guide one's actions online, the brain predicts sensory action feedback ahead of time b...
With the advent of functional neuroimaging techniques, in particular functional magnetic resonance i...
Proper understanding of motor control requires insight into the extent and manner in which task perf...
International audienceIn the present functional magnetic resonance imaging experiment, study partici...
Grasp stability during object manipulation is achieved by the grip forces applied normal to the gras...
Previous research showed that force control in a visually guided continuous tracking task is influen...
Objective: To study the effect of visual feedback gain on movement with the whole-brain functional m...
Modulating visual feedback may be a viable option to improve motor function after stroke, but the ne...
A bilateral visuo-parietal-motor network is responsible for fine control of hand movements. However,...
Modulating visual feedback may be a viable option to improve motor function after stroke, but the ne...
Visual feedback is a crucial factor to motor function, and a few parameters, such as gain, delay and...
Brain imaging based on functional magnetic resonance imaging (fMRI) provides a useful tool to examin...
Previous studies have used fMRI to address the relationship between grip force (GF) applied to an ob...
Abstract: Force scaling in the sensorimotor network during generation and control of static or dynam...
Visual feedback is a crucial factor that impacts the motor function, and a number of parameters, suc...
To accurately guide one's actions online, the brain predicts sensory action feedback ahead of time b...
With the advent of functional neuroimaging techniques, in particular functional magnetic resonance i...
Proper understanding of motor control requires insight into the extent and manner in which task perf...
International audienceIn the present functional magnetic resonance imaging experiment, study partici...
Grasp stability during object manipulation is achieved by the grip forces applied normal to the gras...