We present a dynamic causal model that can explain context-dependent changes in neural responses, in the rat barrel cortex, to an electrical whisker stimulation at different frequencies. Neural responses were measured in terms of local field potentials. These were converted into current source density (CSD) data, and the time series of the CSD sink was extracted to provide a time series response train. The model structure consists of three layers (approximating the responses from the brain stem to the thalamus and then the barrel cortex), and the latter two layers contain nonlinearly coupled modules of linear second-order dynamic systems. The interaction of these modules forms a nonlinear regulatory system that determines the temporal struc...
Using previously published data from the whisker barrel cortex of anesthetized rodents (Berwick et a...
Activity of sensory areas continuously varies reflecting both changes in external sensory stimuli an...
Cortical evoked response can markedly vary across presentation of identical sensory stimuli. Spontan...
We present a dynamic causal model that can explain context-dependent changes in neural responses, in...
We present a dynamic causal model that can explain context-dependent changes in neural responses, in...
Neurovascular coupling in response to stimulation of the rat barrel cortex was investigated using co...
Neurovascular coupling in response to stimulation of the rat barrel cortex was investigated using co...
Recent studies have shown that the haemodynamic responses to brief (2 secs), regardless of the impul...
This paper revisits the dynamic causal modelling of fMRI timeseries by replacing the usual (Taylor) ...
The functional MRI (fMRI) signal is an indirect measure of neuronal activity. In order to deconvolve...
AbstractThe functional MRI (fMRI) signal is an indirect measure of neuronal activity. In order to de...
Neuronal responses to sensory stimuli are not only driven by feedforward sensory pathways but also d...
This article investigates the relation between stimulus-evoked neural activity and cerebral hemodyna...
Models of effective connectivity characterize the influence that neuronal populations exert over eac...
Motivated by its success as a therapeutic treatment in other neurological disorders, most notably Pa...
Using previously published data from the whisker barrel cortex of anesthetized rodents (Berwick et a...
Activity of sensory areas continuously varies reflecting both changes in external sensory stimuli an...
Cortical evoked response can markedly vary across presentation of identical sensory stimuli. Spontan...
We present a dynamic causal model that can explain context-dependent changes in neural responses, in...
We present a dynamic causal model that can explain context-dependent changes in neural responses, in...
Neurovascular coupling in response to stimulation of the rat barrel cortex was investigated using co...
Neurovascular coupling in response to stimulation of the rat barrel cortex was investigated using co...
Recent studies have shown that the haemodynamic responses to brief (2 secs), regardless of the impul...
This paper revisits the dynamic causal modelling of fMRI timeseries by replacing the usual (Taylor) ...
The functional MRI (fMRI) signal is an indirect measure of neuronal activity. In order to deconvolve...
AbstractThe functional MRI (fMRI) signal is an indirect measure of neuronal activity. In order to de...
Neuronal responses to sensory stimuli are not only driven by feedforward sensory pathways but also d...
This article investigates the relation between stimulus-evoked neural activity and cerebral hemodyna...
Models of effective connectivity characterize the influence that neuronal populations exert over eac...
Motivated by its success as a therapeutic treatment in other neurological disorders, most notably Pa...
Using previously published data from the whisker barrel cortex of anesthetized rodents (Berwick et a...
Activity of sensory areas continuously varies reflecting both changes in external sensory stimuli an...
Cortical evoked response can markedly vary across presentation of identical sensory stimuli. Spontan...