International audienceIn the present functional magnetic resonance imaging experiment, study participants performed a dynamic tracking task in a precision grip con¢guration. The precision level of the force control was varied while the mean force level of 5 N was kept constant. Contrasts cancelling error rate di¡erences between the conditions showed activation of nonprimary motor areas and other frontal structures in response to increasing precision constraints when the precision of force control could still be increased, and of right primary and associative parietal areas when the precision of the produced force control reached its maximum. These results suggest that the network of frontal and parietal areas, usually working together in ¢n...
Previous studies have used fMRI to address the relationship between grip force (GF) applied to an ob...
The dexterous control of our grasping actions relies on the cooperative activation of many brain are...
In the past decade, functional neuroimaging has proved extremely useful in mapping the human motor c...
This thesis focus on the unique human ability to pick up and manipulate small objects using the prec...
Imaging and brain stimulation studies seem to correct the classical understanding of how brain netwo...
Sensory stimuli may elicit a widely distributed parietal-premotor circuitry underlying task-related ...
Humans have unique abilities to perform certain types of skilled voluntary movements. In this thesis...
Grasp stability during object manipulation is achieved by the grip forces applied normal to the gras...
Abstract: Force scaling in the sensorimotor network during generation and control of static or dynam...
Previous research showed that force control in a visually guided continuous tracking task is influen...
Previous research showed that force control in a visually guided continuous tracking task is influen...
Contains fulltext : 56507.pdf (publisher's version ) (Open Access)Grasping an obje...
International audienceThe corticospinal system (CS) is well known to be of major importance for cont...
The left hemispheric dominance for complex motor behavior is undisputed. Clinical observations of co...
Contains fulltext : 62377.pdf (publisher's version ) (Open Access)Flexible goal-or...
Previous studies have used fMRI to address the relationship between grip force (GF) applied to an ob...
The dexterous control of our grasping actions relies on the cooperative activation of many brain are...
In the past decade, functional neuroimaging has proved extremely useful in mapping the human motor c...
This thesis focus on the unique human ability to pick up and manipulate small objects using the prec...
Imaging and brain stimulation studies seem to correct the classical understanding of how brain netwo...
Sensory stimuli may elicit a widely distributed parietal-premotor circuitry underlying task-related ...
Humans have unique abilities to perform certain types of skilled voluntary movements. In this thesis...
Grasp stability during object manipulation is achieved by the grip forces applied normal to the gras...
Abstract: Force scaling in the sensorimotor network during generation and control of static or dynam...
Previous research showed that force control in a visually guided continuous tracking task is influen...
Previous research showed that force control in a visually guided continuous tracking task is influen...
Contains fulltext : 56507.pdf (publisher's version ) (Open Access)Grasping an obje...
International audienceThe corticospinal system (CS) is well known to be of major importance for cont...
The left hemispheric dominance for complex motor behavior is undisputed. Clinical observations of co...
Contains fulltext : 62377.pdf (publisher's version ) (Open Access)Flexible goal-or...
Previous studies have used fMRI to address the relationship between grip force (GF) applied to an ob...
The dexterous control of our grasping actions relies on the cooperative activation of many brain are...
In the past decade, functional neuroimaging has proved extremely useful in mapping the human motor c...