AbstractOscillatory activity in the beta range, in human primary motor cortex (M1), shows interesting dynamics that are tied to behaviour and change systematically in disease. To investigate the pathophysiology underlying these changes, we must first understand how changes in beta activity are caused in healthy subjects. We therefore adapted a canonical (repeatable) microcircuit model used in dynamic causal modelling (DCM) previously used to model induced responses in visual cortex. We adapted this model to accommodate cytoarchitectural differences between visual and motor cortex. Using biologically plausible connections, we used Bayesian model selection to identify the best model of measured MEG data from 11 young healthy participants, per...
Beta oscillations are involved in movement and have previously been linked to levels of the inhibito...
Neural oscillations in the basal ganglia are well studied yet remain poorly understood. Behavioural ...
Contains fulltext : 134889.pdf (publisher's version ) (Open Access)Rhythmic neural...
Oscillatory activity in the beta range, in human primary motor cortex (M1), shows interesting dynami...
Motor cortical activity in the beta frequency range is one of the strongest and most studied movemen...
In Parkinson’s disease, an increase in beta oscillations within the basal ganglia nuclei has been sh...
The 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Be...
In electrophysiological recordings of the brain, the transition from high amplitude to low amplitude...
Oscillations between various populations of neurons are common and well documented. However, there ...
Motor actions constitute the way in which we interact with the world, and are driven by millions of ...
Beta oscillations are a dominant feature of the sensorimotor system. A transient and prominentincrea...
Parkinson's disease (PD) is a neurodegenerative condition in which aberrant oscillatory synchronizat...
Knowledge of motor cortex connectivity is of great value in cognitive neuroscience, in order to prov...
Knowledge of motor cortex connectivity is of great value in cognitive neuroscience, in order to prov...
AbstractBeta oscillations are involved in movement and have previously been linked to levels of the ...
Beta oscillations are involved in movement and have previously been linked to levels of the inhibito...
Neural oscillations in the basal ganglia are well studied yet remain poorly understood. Behavioural ...
Contains fulltext : 134889.pdf (publisher's version ) (Open Access)Rhythmic neural...
Oscillatory activity in the beta range, in human primary motor cortex (M1), shows interesting dynami...
Motor cortical activity in the beta frequency range is one of the strongest and most studied movemen...
In Parkinson’s disease, an increase in beta oscillations within the basal ganglia nuclei has been sh...
The 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Be...
In electrophysiological recordings of the brain, the transition from high amplitude to low amplitude...
Oscillations between various populations of neurons are common and well documented. However, there ...
Motor actions constitute the way in which we interact with the world, and are driven by millions of ...
Beta oscillations are a dominant feature of the sensorimotor system. A transient and prominentincrea...
Parkinson's disease (PD) is a neurodegenerative condition in which aberrant oscillatory synchronizat...
Knowledge of motor cortex connectivity is of great value in cognitive neuroscience, in order to prov...
Knowledge of motor cortex connectivity is of great value in cognitive neuroscience, in order to prov...
AbstractBeta oscillations are involved in movement and have previously been linked to levels of the ...
Beta oscillations are involved in movement and have previously been linked to levels of the inhibito...
Neural oscillations in the basal ganglia are well studied yet remain poorly understood. Behavioural ...
Contains fulltext : 134889.pdf (publisher's version ) (Open Access)Rhythmic neural...