Publication date
September 2015
DOIAbstract
<p>Models of Layer 2/3 cells. Based on Blue Brain Project cells. More details to follow</p
<p>Models of Layer 2/3 cells. Based on Blue Brain Project cells. More details to follow</p
Pyramidal cells are the primary excitatory neurons in the cerebral cortex of the mammalian brain. Th...
(A-E) Illustration of cellular behaviors in the model: polarized cell motility (A), co-attraction (C...
<p>The model is made of periglomerular (PG), mitral (M) and granular (Gr) cells. Blue arrows indicat...
<p>Blue Brain Project cells in NeuroML 2.</p> <p>This video was generated from the NeuroML2 descript...
<p>(<b>A</b>) <b>Morphologies of model cells a) nRT, b) TCR, c) layer 6 nontufted pyramidal, d) deep...
The brain is the most mysterious and intricate biological structure known to man. It dominates the w...
Top: Determination of the population sizes. The size of a population is computed as the product of t...
<p>The red triangle represents the population of excitatory pyramidal cells (PYR); blue circles are ...
<p>Neural mass model for a cortical source with excitatory interneurons (EIN) in layer 4, superficia...
<p>(<b>A</b>) Real cortical neurons reconstructed from the cat visual cortex; from left to right: a ...
(a) The biophysical and LIF portions of the model on the cortical surface with delineations of corti...
<p>(A) Geometric representation of cells. Cell <i>a</i>, in isolation, is modeled as a disk. Cell <i...
<p>(<b>A</b>) The <i>in silico</i> study [<a href="http://www.plosone.org/article/info:doi/10.1371/j...
<p>(A) The model includes three different cell types: stem, progenitor and differentiated. All cell ...
<p>Independently developed LPUs and connectivity patterns may be composed into subsystems (red, gree...
Pyramidal cells are the primary excitatory neurons in the cerebral cortex of the mammalian brain. Th...
(A-E) Illustration of cellular behaviors in the model: polarized cell motility (A), co-attraction (C...
<p>The model is made of periglomerular (PG), mitral (M) and granular (Gr) cells. Blue arrows indicat...
<p>Blue Brain Project cells in NeuroML 2.</p> <p>This video was generated from the NeuroML2 descript...
<p>(<b>A</b>) <b>Morphologies of model cells a) nRT, b) TCR, c) layer 6 nontufted pyramidal, d) deep...
The brain is the most mysterious and intricate biological structure known to man. It dominates the w...
Top: Determination of the population sizes. The size of a population is computed as the product of t...
<p>The red triangle represents the population of excitatory pyramidal cells (PYR); blue circles are ...
<p>Neural mass model for a cortical source with excitatory interneurons (EIN) in layer 4, superficia...
<p>(<b>A</b>) Real cortical neurons reconstructed from the cat visual cortex; from left to right: a ...
(a) The biophysical and LIF portions of the model on the cortical surface with delineations of corti...
<p>(A) Geometric representation of cells. Cell <i>a</i>, in isolation, is modeled as a disk. Cell <i...
<p>(<b>A</b>) The <i>in silico</i> study [<a href="http://www.plosone.org/article/info:doi/10.1371/j...
<p>(A) The model includes three different cell types: stem, progenitor and differentiated. All cell ...
<p>Independently developed LPUs and connectivity patterns may be composed into subsystems (red, gree...
Pyramidal cells are the primary excitatory neurons in the cerebral cortex of the mammalian brain. Th...
(A-E) Illustration of cellular behaviors in the model: polarized cell motility (A), co-attraction (C...
<p>The model is made of periglomerular (PG), mitral (M) and granular (Gr) cells. Blue arrows indicat...
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