Literature DB >> 27797828

Hybrid Scheme for Modeling Local Field Potentials from Point-Neuron Networks.

Espen Hagen1,2, David Dahmen1, Maria L Stavrinou2,3, Henrik Lindén4,5, Tom Tetzlaff1, Sacha J van Albada1, Sonja Grün1,6, Markus Diesmann1,7,8, Gaute T Einevoll2,9.   

Abstract

With rapidly advancing multi-electrode recording technology, the local field potential (LFP) has again become a popular measure of neuronal activity in both research and clinical applications. Proper understanding of the LFP requires detailed mathematical modeling incorporating the anatomical and electrophysiological features of neurons near the recording electrode, as well as synaptic inputs from the entire network. Here we propose a hybrid modeling scheme combining efficient point-neuron network models with biophysical principles underlying LFP generation by real neurons. The LFP predictions rely on populations of network-equivalent multicompartment neuron models with layer-specific synaptic connectivity, can be used with an arbitrary number of point-neuron network populations, and allows for a full separation of simulated network dynamics and LFPs. We apply the scheme to a full-scale cortical network model for a ∼1 mm2 patch of primary visual cortex, predict laminar LFPs for different network states, assess the relative LFP contribution from different laminar populations, and investigate effects of input correlations and neuron density on the LFP. The generic nature of the hybrid scheme and its public implementation in hybridLFPy form the basis for LFP predictions from other and larger point-neuron network models, as well as extensions of the current application with additional biological detail.
© The Author 2016. Published by Oxford University Press.

Entities:  

Keywords:  cortical microcircuit; electrostatic forward modeling; extracellular potential; multicompartment neuron modeling; point-neuron network models

Mesh:

Year:  2016        PMID: 27797828      PMCID: PMC6193674          DOI: 10.1093/cercor/bhw237

Source DB:  PubMed          Journal:  Cereb Cortex        ISSN: 1047-3211            Impact factor:   5.357


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