Theoretical Neuroanatomy group

About

The work group led by Prof. Dr. Sacha van Albada studies the architecture and connectivity of brain circuits as the basis for neural network models at the resolution of neurons and synapses that relate structure to dynamics.

To build network models following the construction principles of the brain, the group combines the compilation of experimental anatomical data, for instance using the CoCoMac database, with statistical data prediction strategies. These strategies, including in particular predictive connectomics, yield new insights into the principles governing brain structure. The main focus of the research is on the cerebral cortex of mammals, characterizing its multi-scale structure using concepts like areas, layers, and neural populations. The research is set apart from purely anatomical approaches by two computational aspects. The anatomical knowledge is formalized into abstract mathematical rules tailored for the instantiation of models on supercomputers, and dynamical simulations further constrain the inferred connectivity.

The dynamical network simulations are performed using the neural network simulation tool NEST. Emphasis is placed on simulations of networks featuring the full biological density of neurons and synapses, in view of inevitable inaccuracies introduced by downscaling. Such full-scale simulations are enabled by the simulation technology of NEST, which runs efficiently on systems including compute clusters and supercomputers. The dependence of the predicted network activity on structural parameters is studied, and the predictions are compared with experimentally recorded activity. With the help of mean-field theory, these comparisons suggest adjustments to the model structure that improve the dynamical predictions. The combination of anatomical analysis, dynamics from spiking simulations, and mean-field theory yields predictions for new anatomical studies and insights into the mechanisms underlying observed brain activity.

Research Topics

large-scale spiking neural network simulations, neuroanatomy, mean-field modeling and theory, primate cerebral cortex

Contact

Prof. Dr. Sacha van Albada

INM-6

Building 15.22 / Room 2002

+49 2461/61-96808

E-Mail

Research Foci


Spiking Neural Network Simulations

  • Large-scale models of primate cortical circuits
  • Relationships between cortical structure and dynamics

Neuroanatomy

  • Collation of anatomical data for models of cortex
  • Predictive connectomics
  • CoCoMac, Scalable Brain Atlas, MouseLight Viewer

Mean-field Modeling and Theory

  • Neuron-level activity statistics in spiking neural network models
  • Mean-field reductions for constraining parameters of spiking network models
  • Neural mass and field models

Tools and Reproducibility

  • Systematic descriptions and depictions of network connectivity
  • Contribution of benchmark models to different computing platforms
  • Visualization of morphology, connectivity, and activity

Publications of Theoretical Neuroanatomy group


Members

Last Modified: 29.11.2022