One of the main challenges in neuroscience is to define the detailed structural design of the nervous system. This challenge is one of the first steps towards understanding how neural circuits contribute to the functional organization of the nervous system. In the cerebral cortex pyramidal neurons are key elements in brain function as they represent the most abundant cortical neuronal type and the main source of cortical excitatory synapses. Therefore, many researchers are interested in the analysis of the microanatomy of pyramidal cells since it constitutes an excellent tool for better understanding cortical processing of information. Computational models of neuronal networks based on real cortical circuits have become useful tools for stu...
The dendritic spines of pyramidal neurons are the targets of most excitatory synapses in the cerebra...
Much is known about the computation in individual neurons in the cortical column. Also, the selectiv...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
Dendritic morphology has been shown to have a dramatic impact on neuronal function. However, populat...
Neuronal morphologies provide the foundation for the electrical behavior of neurons, the connectomes...
Neuron morphology is crucial for neuronal connectivity and brain information processing. Computation...
Neuronal morphologies provide the foundation for the electrical behavior of neurons, the connectomes...
It is generally assumed that the variability of neuronal morphology has an important effect on both ...
Dendritic morphology has been shown to have a dramatic impact on neuronal function. However, populat...
An important goal in computational neuroanatomy is the complete and accurate simulation of neuronal ...
<div><p>Dendritic morphology has been shown to have a dramatic impact on neuronal function. However,...
Unraveling pyramidal cell structure is crucial to understanding cortical circuit computations. Altho...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
Pyramidal cells, the most abundant neurons in neocortex, exhibit significant structural variability ...
<div><p>The dendritic spines of pyramidal neurons are the targets of most excitatory synapses in the...
The dendritic spines of pyramidal neurons are the targets of most excitatory synapses in the cerebra...
Much is known about the computation in individual neurons in the cortical column. Also, the selectiv...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
Dendritic morphology has been shown to have a dramatic impact on neuronal function. However, populat...
Neuronal morphologies provide the foundation for the electrical behavior of neurons, the connectomes...
Neuron morphology is crucial for neuronal connectivity and brain information processing. Computation...
Neuronal morphologies provide the foundation for the electrical behavior of neurons, the connectomes...
It is generally assumed that the variability of neuronal morphology has an important effect on both ...
Dendritic morphology has been shown to have a dramatic impact on neuronal function. However, populat...
An important goal in computational neuroanatomy is the complete and accurate simulation of neuronal ...
<div><p>Dendritic morphology has been shown to have a dramatic impact on neuronal function. However,...
Unraveling pyramidal cell structure is crucial to understanding cortical circuit computations. Altho...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
Pyramidal cells, the most abundant neurons in neocortex, exhibit significant structural variability ...
<div><p>The dendritic spines of pyramidal neurons are the targets of most excitatory synapses in the...
The dendritic spines of pyramidal neurons are the targets of most excitatory synapses in the cerebra...
Much is known about the computation in individual neurons in the cortical column. Also, the selectiv...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...