This project is attempting to develop a parametric model of the hippocampus based on an n-level field theory developed by the collaborator, Dr. Chauvet. The formalisms of Dr. Chauvet's theory provide the means for a continuous representation of hierarchically organized physiological systems. In this approach, field equations are used to describe the dynamics of physiological processes existing at the synaptic level (activity of a single neuron) and at the neuronal level (activity of a population of neurons). A geometrical model is used to impose spatial boundaries so that diffusion, propagation, etc. can be limited according to known in homogeneities characteristic of the hippocampus. To date, the field equations have been adapted to the specific case of excitatory synaptic input to hippocampal dentate granule cells, and a geometrical model that incorporates the essential morphological and anatomical features of perforant path input to dentate granule cells has been constructed. The synaptic and action potential activity of a population of neurons, each having a population of synaptic input sites on distal dendrites, has been simulated. The specific problem being investigated is how to extend the current two-level field theory to include a third, molecular level that would allow representation of receptor and channel kinetics. Work in this project has been supported by Office of Naval Research (N00014-94-1-0568) to Professor Chauvet.

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Biotechnology Resource Grants (P41)
Project #
5P41RR001861-17
Application #
6480884
Study Section
Project Start
2001-09-01
Project End
2002-08-31
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
17
Fiscal Year
2001
Total Cost
$155,764
Indirect Cost
Name
University of Southern California
Department
Type
DUNS #
041544081
City
Los Angeles
State
CA
Country
United States
Zip Code
90089
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