Tools for the Next Generation of Extracellular Physiology

Tools for the Next Generation of Extracellular Physiology. Chung, J. search.proquest.com, 2018.

Complex animal behaviors are supported by computations made across large ensembles of neurons distributed among multiple brain regions. Our current understanding of how individual neurons and the circuits they are a part of represent and process information has depended upon the ability to observe the millisecond timescale dynamics of these neuronal networks. The multi-electrode array has been the principle tool utilized for the isolation of large numbers of simultaneously recorded neurons, though current approaches have …

@book{pop00014,
	author = {JEC Chung},
	type = {BOOK},
	title = {Tools for the Next Generation of Extracellular Physiology},
	publisher = {search.proquest.com},
	url = {https://search.proquest.com/openview/979162396ef4b59854a00c5b9ad89fba/1?pq-origsite=gscholar\&cbl=18750},
	fulltext = {https://escholarship.org/content/qt6360b95r/qt6360b95r.pdf},
	related = {https://scholar.google.com/scholar?q=related:6RFyXfWttb4J:scholar.google.com/\&scioq=chung+je+tools+for+the+next+generation+of+extracellular+electrophysiology+doctoral+dissertation+ucsf+\&hl=en\&as_sdt=0,5\&as_vis=1},
	year = {2018},
	abstract = {Complex animal behaviors are supported by computations made across large ensembles of neurons distributed among multiple brain regions. Our current understanding of how individual neurons and the circuits they are a part of represent and process information has depended upon the ability to observe the millisecond timescale dynamics of these neuronal networks. The multi-electrode array has been the principle tool utilized for the isolation of large numbers of simultaneously recorded neurons, though current approaches have …},

}

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