Michael Rudolph
THEORETICAL PHYSICS • DISCRETE MATHEMATICS
Calculating event-triggered average synaptic conductances
from the membrane potential


M. Pospischil, Z. Piwkowska, M. Rudolph, T. Bal, A. Destexhe

J. Neurophysiol. 97: 2544-2552, 2007

Abstract

The optimal patterns of synaptic conductances for spike generation in central neurons is a subject of considerable interest. Ideally, such conductance time courses should be extracted from membrane potential (Vm) activity, but this is difficult because the nonlinear contribution of conductances to the Vm renders their estimation from the membrane equation extremely sensitive. We outline here a solution to this problem based on a discretization of the time axis. This procedure can extract the time course of excitatory and inhibitory conductances solely from the analysis of Vm activity. We test this method by calculating spike-triggered averages of synaptic conductances using numerical simulations of the integrate-and-fire model subject to colored conductance noise. The procedure was also tested successfully in biological cortical neurons using conductance noise injected with dynamic-clamp. This method should allow the extraction of synaptic conductances from Vm recordings in vivo.

Complementary Information and Material

Python demo with the method to calculate spike-triggered average (STA) of conductances from membrane potential traces: ZIP (9 kByte)