Neuronal morphologies provide the foundation for the electrical behavior of neurons, the connectomes they form, and the dynamical properties of the brain. Comprehensive neuron models are essential for defining cell types, discerning their functional roles and investigating structural alterations associated with diseased brain states. Recently, we introduced a topological descriptor that reliably categorizes dendritic morphologies. We apply this descriptor to digitally synthesize dendrites to address the challenge of insufficient biological reconstructions. The synthesized cortical dendrites are statistically indistinguishable from the corresponding reconstructed dendrites in terms of morpho-electrical properties and connectivity. This topol...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
The neurons in the cerebral cortex are not randomly interconnected. This specificity in wiring can r...
The modeling of extended microcircuits is emerging as an effective tool to simulate the neurophysiol...
Neuronal morphologies provide the foundation for the electrical behavior of neurons, the connectomes...
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 ...
The function of the human brain arises from computations that occur within and among billions of ne...
One of the main challenges in neuroscience is to define the detailed structural design of the nervou...
Dendritic morphology has been shown to have a dramatic impact on neuronal function. However, populat...
Dendritic morphology has been shown to have a dramatic impact on neuronal function. However, populat...
Neuron morphology is crucial for neuronal connectivity and brain information processing. Computation...
<div><p>Dendritic morphology has been shown to have a dramatic impact on neuronal function. However,...
An important goal in computational neuroanatomy is the complete and accurate simulation of neuronal ...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
Since the days of Ramón y Cajal and Golgi, reconstruction of neuronal morphology has been a central ...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
The neurons in the cerebral cortex are not randomly interconnected. This specificity in wiring can r...
The modeling of extended microcircuits is emerging as an effective tool to simulate the neurophysiol...
Neuronal morphologies provide the foundation for the electrical behavior of neurons, the connectomes...
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 ...
The function of the human brain arises from computations that occur within and among billions of ne...
One of the main challenges in neuroscience is to define the detailed structural design of the nervou...
Dendritic morphology has been shown to have a dramatic impact on neuronal function. However, populat...
Dendritic morphology has been shown to have a dramatic impact on neuronal function. However, populat...
Neuron morphology is crucial for neuronal connectivity and brain information processing. Computation...
<div><p>Dendritic morphology has been shown to have a dramatic impact on neuronal function. However,...
An important goal in computational neuroanatomy is the complete and accurate simulation of neuronal ...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
Since the days of Ramón y Cajal and Golgi, reconstruction of neuronal morphology has been a central ...
Understanding the principles governing axonal and dendritic branching is essential for unravelling t...
The neurons in the cerebral cortex are not randomly interconnected. This specificity in wiring can r...
The modeling of extended microcircuits is emerging as an effective tool to simulate the neurophysiol...