The role of cortical feedback in the thalamocortical processing loop has been extensively investigated over the last decades. With an exception of several ...
Cessation of cortical input, despite decrease of spontaneous activity of TC cells, increased spontaneous firing of their recurrent inhibitory interneurons.
Reciprocal inhibition and slow calcium decay in perigeniculate interneurons explain changes of spontaneous firing of thalamic cells caused by cortical ...
Feb 27, 2014 · This strongly indicates that the thalamic reticular nucleus plays an essential role in the cortical influence over thalamo-cortical relay cells ...
... perigeniculate interneurons explain changes of spontaneous firing of thalamic cells caused by cortical inactivation. https://doi.org/10.1007/s10827-012-0430 ...
Reciprocal inhibition and slow calcium decay in perigeniculate interneurons explain changes of spontaneous firing of thalamic cells caused by cortical ...
... inhibition and slow calcium decay in perigeniculate interneurons explain changes of spontaneous firing of thalamic cells caused by cortical inactivation.
Intracellular injection of cyclic AMP into PTZ-sensitive neurons caused hyperpolarization coincident with an increase in intracellular calcium concentration.
Reciprocal inhibition and slow calcium decay in perigeniculate interneurons explain changes of spontaneous firing of thalamic cells caused by cortical ...
Jan 31, 2020 · ... slow calcium decay in perigeniculate interneurons explain changes of spontaneous firing of thalamic cells caused by cortical inactivation. J ...