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Inferring synaptic excitation/inhibition balance from field potentials.

Richard Gao, +2 more
- 01 Sep 2017 - 
- Vol. 158, pp 70-78
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TLDR
A computational model is developed to show that E:I changes can be estimated from the power law exponent (slope) of the electrophysiological power spectrum, and provides evidence thatE:I ratio may be inferred from electrophysics recordings at many spatial scales, ranging from the local field potential to surface electrocorticography.
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This article is published in NeuroImage.The article was published on 2017-09-01 and is currently open access. It has received 397 citations till now. The article focuses on the topics: Local field potential.

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Parameterizing neural power spectra

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TL;DR: A novel algorithm for automatic parameterization of neural power spectral densities (PSDs) as a combination of the aperiodic signal and putative periodic oscillations is introduced, requiring no a priori specification of band limits and accounts for potentially-overlapping oscillations while minimizing the degree to which they are confounded with one another.
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References
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Balanced cortical microcircuitry for maintaining information in working memory

Sukbin Lim, +1 more
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TL;DR: A computational approach was used to show that the inhibitory and excitatory microcircuitry of neocortical memory-storing regions is sufficient to implement a corrective feedback mechanism that enables persistent activity to be maintained stably for prolonged durations.
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Distinct recurrent versus afferent dynamics in cortical visual processing

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TL;DR: Dynamics intrinsic to cortical recurrent circuits that transform afferent input in time are determined by optogenetically manipulating thalamus and cortex by predicting the time-locking of cortical activity to thalamic input at frequencies <15 Hz and attenuation of the cortical response to higher frequencies.
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A unifying principle underlying the extracellular field potential spectral responses in the human cortex

Ella Podvalny, +9 more
- 08 Apr 2015 - 
TL;DR: A new global, cross-frequency (10-100 Hz) neuronal process is reflected in a significant reduction of the power spectrum slope of the ECoG signal.
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Simulated power spectral density (PSD) of background electrocorticogram (ECoG)

Walter J. Freeman, +1 more
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TL;DR: The resting ECoG truly is low-dimensional noise, and that the resting state is an optimal starting point for defining and measuring both artifactual and physiological structures emergent in the activated E CoG.
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Excitation and inhibition in epilepsy

Jerome Engel
- 01 Aug 1996 - 
TL;DR: An appreciation for the fact that epilepsy is not merely an increase in excitation and/or a decrease in inhibition, but a variety of complicated neuronal interactions in different patients, or even at different times in the same patient or same seizure, is essential to the development of effective treatments to control epileptic seizures and prevent their consequences.
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Frequently Asked Questions (4)
Q1. What are the contributions mentioned in the paper "Inferring synaptic excitation/inhibition balance from field potentials" ?

Fluctuations in this E: I balance have been shown to influence neural computation, working memory, and information processing. This has limited the ability to examine the full impact that E: I shifts have in neural computation and disease. In this study, the authors develop a computational model to show that E: I ratio can be estimated from the power law exponent ( slope ) of the electrophysiological power spectrum, and validate this relationship using previously published datasets from two species ( rat local field potential and macaque electrocorticography ). 

Key Words: excitation-inhibition balance, local field potential, electrocorticography, power spectral density, power law, simulation, high-conductance state. 

While more drastic shifts and aberrant E:I patterns are implicated in numerous neurological and psychiatric disorders, current methods for measuring E:I dynamics require invasive procedures that are difficult to perform in behaving animals, and nearly impossible in humans. 

Richard D. Gao1,*, Erik J. Peterson1, Bradley Voytek1,2,3,41Department of Cognitive Science, 2Neurosciences Graduate Program, 3Institute for Neural Computation, and 4Kavli Institute for Brain and Mind, University of California, San Diego, La Jolla, CA, USA.*Correspondence: rigao@ucsd.eduNeural circuits sit in a dynamic balance between excitation (E) and inhibition (I).