Abstract: Human behaviour is mostly composed of habitual actions that require little conscious control. Such actions may become invalid if the environment changes, at which point we need to switch behaviour by overcoming habitual actions that are otherwise triggered automatically. It is unclear how the brain controls this type of behavioural switching. Here we show that the presupplementary motor area (pre-SMA) in the medial frontal cortex has a function in switching from automatic to volitionally controlled action. This was demonstrated using colour-matching saccade tasks performed by rhesus monkeys. We found that a group of pre-SMA neurons was selectively activated when subjects successfully switched from a habitual saccade to a controlle...
Our ability to regulate behavior based on past experience has thus far been examined using single mo...
An important property of our motor system is the ability to either perform or inhibit an automatic g...
Successful task switching requires a network of brain areas to select, maintain, implement, and exec...
Human behavior is mostly composed of habitual actions that require little conscious control. Such ac...
Accumulator models that integrate incoming sensory information into motor plans provide a robust fra...
Executive control requires controlling the initiation of movements, judging the consequences of acti...
We continuously scan the visual world via rapid or saccadic eye movements. Such eye movements are gu...
Prefrontal neurons exhibit saccade-related activity and pre-saccadic memory-related activity often e...
Prefrontal neurons exhibit saccade-related activity and pre-saccadic memory-related activity often e...
The subthalamic nucleus (STN) of the basal ganglia is an important element of motor control. This is...
& A long-standing issue concerning the executive function of the primate dorsolateral prefrontal...
WE are able to move visual attention away from the direction of gaze, fixating on one object while a...
Neural regions in the dorsomedial frontal cortex (DMFC), including the supplementary eye field (SEF)...
The frontal eye fields (FEF), originally identified as an oculomotor cortex, have also been implicat...
Top-down control is critical to select goal-directed actions in changeable environments, particularl...
Our ability to regulate behavior based on past experience has thus far been examined using single mo...
An important property of our motor system is the ability to either perform or inhibit an automatic g...
Successful task switching requires a network of brain areas to select, maintain, implement, and exec...
Human behavior is mostly composed of habitual actions that require little conscious control. Such ac...
Accumulator models that integrate incoming sensory information into motor plans provide a robust fra...
Executive control requires controlling the initiation of movements, judging the consequences of acti...
We continuously scan the visual world via rapid or saccadic eye movements. Such eye movements are gu...
Prefrontal neurons exhibit saccade-related activity and pre-saccadic memory-related activity often e...
Prefrontal neurons exhibit saccade-related activity and pre-saccadic memory-related activity often e...
The subthalamic nucleus (STN) of the basal ganglia is an important element of motor control. This is...
& A long-standing issue concerning the executive function of the primate dorsolateral prefrontal...
WE are able to move visual attention away from the direction of gaze, fixating on one object while a...
Neural regions in the dorsomedial frontal cortex (DMFC), including the supplementary eye field (SEF)...
The frontal eye fields (FEF), originally identified as an oculomotor cortex, have also been implicat...
Top-down control is critical to select goal-directed actions in changeable environments, particularl...
Our ability to regulate behavior based on past experience has thus far been examined using single mo...
An important property of our motor system is the ability to either perform or inhibit an automatic g...
Successful task switching requires a network of brain areas to select, maintain, implement, and exec...