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A high-density, high-channel count, multiplexed mu ECoG array for auditory-cortex recordings

Cited 41 time in webofscience Cited 45 time in scopus
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Title
A high-density, high-channel count, multiplexed mu ECoG array for auditory-cortex recordings
Author(s)
Escabi, MA; Read, HL; Viventi, J; Dae-Hyeong Kim; Higgins, NC; Storace, DA; Liu, ASK; Gifford, AM; Burke, JF; Campisi, M; Kim, YS; Avrin, AE; Van der Spiegel, J; Huang, YG; Li, M; Wu, J; Rogers, JA; Litt, B; Cohen, YE
Subject
electrocorticography, ; ECoG, ; auditory cortex, ; topography, ; tonotopy
Publication Date
2014-09
Journal
JOURNAL OF NEUROPHYSIOLOGY, v.112, no.6, pp.1566 - 1583
Publisher
AMER PHYSIOLOGICAL SOC
Abstract
Escabí MA, Read HL, Viventi J, Kim DH, Higgins NC, Storace DA, Liu AS, Gifford AM, Burke JF, Campisi M, Kim YS, Avrin AE, Van der Spiegel J, Huang Y, Li M, Wu J, Rogers JA, Litt B, Cohen YE. A high-density, high-channel count, multiplexed ECoG array for auditory-cortex recordings. J Neurophysiol 112: 1566–1583, 2014. First published June 11, 2014; doi:10.1152/jn.00179.2013.— Our understanding of the large-scale population dynamics of neural activity is limited, in part, by our inability to record simultaneously from large regions of the cortex. Here, we validated the use of a large-scale active microelectrode array that simultaneously records 196 multiplexed micro-electrocortigraphical (ECoG) signals from the cortical surface at a very high density (1,600 electrodes/cm2). We compared ECoG measurements in auditory cortex using a custom “active” electrode array to those recorded using a conventional “passive” ECoG array. Both of these array responses were also compared with data recorded via intrinsic optical imaging, which is a standard methodology for recording sound-evoked cortical activity. Custom active ECoG arrays generated more veridical representations of the tonotopic organization of the auditory cortex than current commercially available passive ECoG arrays. Furthermore, the cortical representation could be measured efficiently with the active arrays, requiring as little as 13.5 s of neural data acquisition. Next, we generated spectrotemporal receptive fields from the recorded neural activity on the active ECoG array and identified functional organizational principles comparable to those observed using intrinsic metabolic imaging and single-neuron recordings. This new electrode array technology has the potential for large-scale, temporally precise monitoring and mapping of the cortex, without the use of invasive penetrating electrodes.
URI
https://pr.ibs.re.kr/handle/8788114/922
DOI
10.1152/jn.00179.2013
ISSN
0022-3077
Appears in Collections:
Center for Nanoparticle Research(나노입자 연구단) > 1. Journal Papers (저널논문)
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