SummaryHabits are notoriously difficult to break and, if broken, are usually replaced by new routines. To examine the neural basis of these characteristics, we recorded spike activity in cortical and striatal habit sites as rats learned maze tasks. Overtraining induced a shift from purposeful to habitual behavior. This shift coincided with the activation of neuronal ensembles in the infralimbic neocortex and the sensorimotor striatum, which became engaged simultaneously but developed changes in spike activity with distinct time courses and stability. The striatum rapidly acquired an action-bracketing activity pattern insensitive to reward devaluation but sensitive to running automaticity. A similar pattern developed in the upper layers of t...
SummaryTo study the interplay between hippocampus and medial prefrontal cortex (Pfc) and its importa...
Brain areas in the frontal lobe have been implicated in behavioral flexibility and control. The stud...
The cortex projects to the dorsal striatum topographically1,2 to regulate behaviour3,4,5, but spikin...
Habits are notoriously difficult to break and, if broken, are usually replaced by new routines. To e...
Considerable behavioral data indicate that operant actions can become habitual, as demonstrated by i...
Rhythmic brain activity is thought to reflect, and to help organize, spike activity in populations o...
Habits tend to form slowly but, once formed, can have great stability. We probed these temporal char...
SummaryThe basal ganglia are implicated in a remarkable range of functions influencing emotion and c...
The basal ganglia are implicated in a remarkable range of functions influencing emotion and cognitio...
Understanding habits at a biological level requires a combination of behavioral observations and mea...
Understanding habits at a biological level requires a combination of behavioral observations and mea...
Understanding habits at a biological level requires a combination of behavioral observations and mea...
International audienceThe striatum is required for the acquisition of procedural memories, but its c...
AbstractOscillations and synchrony in basal ganglia circuits may play a key role in the organization...
Habits are characterized by an insensitivity to their consequences and, as such, can be distinguishe...
SummaryTo study the interplay between hippocampus and medial prefrontal cortex (Pfc) and its importa...
Brain areas in the frontal lobe have been implicated in behavioral flexibility and control. The stud...
The cortex projects to the dorsal striatum topographically1,2 to regulate behaviour3,4,5, but spikin...
Habits are notoriously difficult to break and, if broken, are usually replaced by new routines. To e...
Considerable behavioral data indicate that operant actions can become habitual, as demonstrated by i...
Rhythmic brain activity is thought to reflect, and to help organize, spike activity in populations o...
Habits tend to form slowly but, once formed, can have great stability. We probed these temporal char...
SummaryThe basal ganglia are implicated in a remarkable range of functions influencing emotion and c...
The basal ganglia are implicated in a remarkable range of functions influencing emotion and cognitio...
Understanding habits at a biological level requires a combination of behavioral observations and mea...
Understanding habits at a biological level requires a combination of behavioral observations and mea...
Understanding habits at a biological level requires a combination of behavioral observations and mea...
International audienceThe striatum is required for the acquisition of procedural memories, but its c...
AbstractOscillations and synchrony in basal ganglia circuits may play a key role in the organization...
Habits are characterized by an insensitivity to their consequences and, as such, can be distinguishe...
SummaryTo study the interplay between hippocampus and medial prefrontal cortex (Pfc) and its importa...
Brain areas in the frontal lobe have been implicated in behavioral flexibility and control. The stud...
The cortex projects to the dorsal striatum topographically1,2 to regulate behaviour3,4,5, but spikin...