Assessment of a single trial impact on the amplitude of the averaged event related potentials
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Published:2023-04-17
Issue:
Volume:17
Page:
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ISSN:1662-5110
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Container-title:Frontiers in Neural Circuits
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language:
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Short-container-title:Front. Neural Circuits
Author:
Fedorov Georgy O.,Levichkina Ekaterina,Limanskaya Alexandra V.,Pigareva Marina L.,Pigarev Ivan N.
Abstract
Widely used in neuroscience the averaging of event related potentials is based on the assumption that small responses to the investigated events are present in every trial but can be hidden under the random noise. This situation often takes place, especially in experiments performed at hierarchically lower levels of sensory systems. However, in the studies of higher order complex neuronal networks evoked responses might appear only under particular conditions and be absent otherwise. We encountered this problem studying a propagation of interoceptive information to the cortical areas in the sleep-wake cycle. Cortical responses to various visceral events were present during some periods of sleep, then disappeared for a while and restored again after a period of absence. Further investigation of the viscero-cortical communication required a method that would allow labeling the trials contributing to the averaged event related responses–“efficient trials,” and separating them from the trials without any response. Here we describe a heuristic approach to solving this problem in the context of viscero-cortical interactions occurring during sleep. However, we think that the proposed technique can be applicable to any situation where neuronal processing of the same events is expected to be variable due to internal or external factors modulating neuronal activity. The method was first implemented as a script for Spike 2 program version 6.16 (CED). However, at present a functionally equivalent version of this algorithm is also available as Matlab code athttps://github.com/george-fedorov/erp-correlations.
Funder
Russian Foundation for Basic Research
Publisher
Frontiers Media SA
Subject
Cellular and Molecular Neuroscience,Cognitive Neuroscience,Sensory Systems,Neuroscience (miscellaneous)