<p>The cortical layer was organized in a one-dimensional chain of pyramidal cells (PYs) and inhibitory neurons (INs). The thalamus model included thalamic relay (TC) and reticular thalamic (RE) neurons. Black filled circles and black bars represent excitatory and inhibitory connections between neurons, respectively.</p
<p>Green arrows represent the regions in which there were BOLD response increases. The 3 input pathw...
<p>Arrows represent excitatory connections and the lines with solid circle represent inhibitory conn...
This is the concluding article in a series of 3 studies that investigate the anatomical determinants...
<p>A. The network architecture included three one-dimensional network layers each containing cortica...
<p>A, The network contained 100 PY, 25 IN, 50 TC, and 50 RE neurons. The number of projections betwe...
<p>The network is constituted of different interconnected brain areas, each one represented by a si...
<p>Excitatory (inhibitory) connections indicated in green (red). is the cortical pyramidal neural p...
<p>(A) Example 12 Hz Poisson process-generated spiketrains used for corticothalamic UP state spikes....
<p>(A) The architecture of the model is composed of five populations of neurons. Three populations (...
<p>The model comprises the three network nodes (cortex, reticular nucleus and thalamus) known to be ...
<p>However, these are only given as being representative of typical cortical regions, and in the com...
The role of the thalamus in cortical sensory transmission is well known, but its broader role in cog...
<p>The population of excitatory neurons is subdivided in non-overlapping populations selective to 8 ...
A central aim of neuroscience is to understand how individual neurons integrate to form a network of...
<p>(A) The macroarchitecture of the model. Shown are the fast-spiking inhibitory interneuron network...
<p>Green arrows represent the regions in which there were BOLD response increases. The 3 input pathw...
<p>Arrows represent excitatory connections and the lines with solid circle represent inhibitory conn...
This is the concluding article in a series of 3 studies that investigate the anatomical determinants...
<p>A. The network architecture included three one-dimensional network layers each containing cortica...
<p>A, The network contained 100 PY, 25 IN, 50 TC, and 50 RE neurons. The number of projections betwe...
<p>The network is constituted of different interconnected brain areas, each one represented by a si...
<p>Excitatory (inhibitory) connections indicated in green (red). is the cortical pyramidal neural p...
<p>(A) Example 12 Hz Poisson process-generated spiketrains used for corticothalamic UP state spikes....
<p>(A) The architecture of the model is composed of five populations of neurons. Three populations (...
<p>The model comprises the three network nodes (cortex, reticular nucleus and thalamus) known to be ...
<p>However, these are only given as being representative of typical cortical regions, and in the com...
The role of the thalamus in cortical sensory transmission is well known, but its broader role in cog...
<p>The population of excitatory neurons is subdivided in non-overlapping populations selective to 8 ...
A central aim of neuroscience is to understand how individual neurons integrate to form a network of...
<p>(A) The macroarchitecture of the model. Shown are the fast-spiking inhibitory interneuron network...
<p>Green arrows represent the regions in which there were BOLD response increases. The 3 input pathw...
<p>Arrows represent excitatory connections and the lines with solid circle represent inhibitory conn...
This is the concluding article in a series of 3 studies that investigate the anatomical determinants...