For things needing your attention: the role of neocortical gamma in sensory perception. Pritchett, D. L, Siegle, J. H, Deister, C. A, & Moore, C. I Current Opinion in Neurobiology, 31:254–263, April, 2015. ![For things needing your attention: the role of neocortical gamma in sensory perception [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex Two general classes of hypotheses for the role for gamma oscillations in sensation are those that predict gamma facilitates signal amplification through local synchronization of a distinct ensemble, and those that predict gamma modulates fine temporal relationships between neurons to represent information. Correlative evidence has been offered for and against these hypotheses. A recent study in which gamma was optogenetically entrained by driving fast-spiking interneurons showed enhanced sensory detection of harder-to-perceive stimuli, those that benefit most from attention, in agreement with the amplification hypotheses. These findings are supported by similar studies employing less specific optogenetic patterns or single neuron stimulation, but contrast with findings based on direct optogenetic stimulation of pyramidal neurons. Key next steps for this topic are described.
@article{pritchett_for_2015,
title = {For things needing your attention: the role of neocortical gamma in sensory perception},
volume = {31},
issn = {09594388},
shorttitle = {For things needing your attention},
url = {https://linkinghub.elsevier.com/retrieve/pii/S0959438815000343},
doi = {10.1016/j.conb.2015.02.004},
abstract = {Two general classes of hypotheses for the role for gamma oscillations in sensation are those that predict gamma facilitates signal amplification through local synchronization of a distinct ensemble, and those that predict gamma modulates fine temporal relationships between neurons to represent information. Correlative evidence has been offered for and against these hypotheses. A recent study in which gamma was optogenetically entrained by driving fast-spiking interneurons showed enhanced sensory detection of harder-to-perceive stimuli, those that benefit most from attention, in agreement with the amplification hypotheses. These findings are supported by similar studies employing less specific optogenetic patterns or single neuron stimulation, but contrast with findings based on direct optogenetic stimulation of pyramidal neurons. Key next steps for this topic are described.},
language = {en},
urldate = {2020-03-12},
journal = {Current Opinion in Neurobiology},
author = {Pritchett, Dominique L and Siegle, Joshua H and Deister, Christopher A and Moore, Christopher I},
month = apr,
year = {2015},
pages = {254--263}
}
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