Fronto-basal ganglia pathways play a crucial role in voluntary action control, including the ability to inhibit motor responses. Response inhibition might be mediated via a fast hyperdirect pathway connecting the right inferior frontal gyrus (rIFG) and the presupplementary motor area (preSMA) with the subthalamic nucleus or, alternatively, via the indirect pathway between the cortex and caudate. To test the relative contribution of these two pathways to inhibitory action control, we applied an innovative quantification method for effective brain connectivity. Functional magnetic resonance imaging data were collected from 20 human participants performing a Simon interference task with an occasional stop signal. A single right-lateralized mod...
Intelligent behavior depends on the ability to suppress inappropriate actions and resolve interferen...
A fully adapted behavior requires maximum efficiency to inhibit processes in the motor domain. Altho...
Action selection often requires the transformation of visual information into motor plans. Preventin...
Communication between the prefrontal cortex and subcortical nuclei underpins the control and inhibit...
Communication between the prefrontal cortex and subcortical nuclei underpins the control and inhibit...
The ability to dynamically change motor outputs, such as stopping an initiated response, is an impor...
Motor inhibitory control implemented as response inhibition is an essential cognitive function requi...
The ability to inhibit action tendencies is vital for adaptive human behaviour. Various paradigms ar...
A key aspect of daily functioning is our ability to control our response tendencies. An experimental...
The ability to stop motor responses depends critically on the right inferior frontal cortex (IFC) an...
This PhD thesis investigated the role of the basal ganglia in memory and motor inhibition. Recent ne...
Using event-related fMRI, this study investigated the neural dynamics of response inhibition under f...
Action selection often requires the transformation of visual information into motor plans. Preventin...
Intelligent behavior depends on the ability to suppress inappropriate actions and resolve interferen...
Actions are selected in the context of environmental demands and internal goals. Both change constan...
Intelligent behavior depends on the ability to suppress inappropriate actions and resolve interferen...
A fully adapted behavior requires maximum efficiency to inhibit processes in the motor domain. Altho...
Action selection often requires the transformation of visual information into motor plans. Preventin...
Communication between the prefrontal cortex and subcortical nuclei underpins the control and inhibit...
Communication between the prefrontal cortex and subcortical nuclei underpins the control and inhibit...
The ability to dynamically change motor outputs, such as stopping an initiated response, is an impor...
Motor inhibitory control implemented as response inhibition is an essential cognitive function requi...
The ability to inhibit action tendencies is vital for adaptive human behaviour. Various paradigms ar...
A key aspect of daily functioning is our ability to control our response tendencies. An experimental...
The ability to stop motor responses depends critically on the right inferior frontal cortex (IFC) an...
This PhD thesis investigated the role of the basal ganglia in memory and motor inhibition. Recent ne...
Using event-related fMRI, this study investigated the neural dynamics of response inhibition under f...
Action selection often requires the transformation of visual information into motor plans. Preventin...
Intelligent behavior depends on the ability to suppress inappropriate actions and resolve interferen...
Actions are selected in the context of environmental demands and internal goals. Both change constan...
Intelligent behavior depends on the ability to suppress inappropriate actions and resolve interferen...
A fully adapted behavior requires maximum efficiency to inhibit processes in the motor domain. Altho...
Action selection often requires the transformation of visual information into motor plans. Preventin...