High-Density, Long-Lasting, and Multi-region Electrophysiological Recordings Using Polymer Electrode Arrays

Jason E. Chung; Hannah R. Joo; Jiang Lan Fan; Daniel F. Liu; Alex H. Barnett; Supin Chen; Charlotte Geaghan-Breiner; Mattias P. Karlsson; Magnus Karlsson; Kye Y. Lee; Hexin Liang; Jeremy F. Magland; Jeanine A. Pebbles; Angela C. Tooker; Leslie F. Greengard; Vanessa M. Tolosa; Loren M. Frank

doi:10.1016/j.neuron.2018.11.002

High-Density, Long-Lasting, and Multi-region Electrophysiological Recordings Using Polymer Electrode Arrays

Jason E. Chung, Hannah R. Joo, Jiang Lan Fan, Daniel F. Liu, Alex H. Barnett, Supin Chen, Charlotte Geaghan-Breiner, Mattias P. Karlsson, Magnus Karlsson, Kye Y. Lee, Hexin Liang, Jeremy F. Magland, Jeanine A. Pebbles, Angela C. Tooker, Leslie F. Greengard, Vanessa M. Tolosa, Loren M. Frank

Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

Chung et al. present a large-scale, multi-site, polymer electrode-based recording platform. The modular system is capable of data collection from up to 1,024 channels in freely behaving rats, enabling long-term studies of distributed networks.

Original language	English (US)
Pages (from-to)	21-31.e5
Journal	Neuron
Volume	101
Issue number	1
DOIs	https://doi.org/10.1016/j.neuron.2018.11.002
State	Published - Jan 2 2019

Keywords

freely behaving
headstage
massively parallel
modular
multi-electrode recording
polymer
probe
rat
single neuron
spike sorting

ASJC Scopus subject areas

Neuroscience(all)

Access to Document

10.1016/j.neuron.2018.11.002

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Chung, J. E., Joo, H. R., Fan, J. L., Liu, D. F., Barnett, A. H., Chen, S., Geaghan-Breiner, C., Karlsson, M. P., Karlsson, M., Lee, K. Y., Liang, H., Magland, J. F., Pebbles, J. A., Tooker, A. C., Greengard, L. F., Tolosa, V. M., & Frank, L. M. (2019). High-Density, Long-Lasting, and Multi-region Electrophysiological Recordings Using Polymer Electrode Arrays. Neuron, 101(1), 21-31.e5. https://doi.org/10.1016/j.neuron.2018.11.002

High-Density, Long-Lasting, and Multi-region Electrophysiological Recordings Using Polymer Electrode Arrays. / Chung, Jason E.; Joo, Hannah R.; Fan, Jiang Lan; Liu, Daniel F.; Barnett, Alex H.; Chen, Supin; Geaghan-Breiner, Charlotte; Karlsson, Mattias P.; Karlsson, Magnus; Lee, Kye Y.; Liang, Hexin; Magland, Jeremy F.; Pebbles, Jeanine A.; Tooker, Angela C.; Greengard, Leslie F.; Tolosa, Vanessa M.; Frank, Loren M.

In: Neuron, Vol. 101, No. 1, 02.01.2019, p. 21-31.e5.

Research output: Contribution to journal › Article › peer-review

Chung, JE, Joo, HR, Fan, JL, Liu, DF, Barnett, AH, Chen, S, Geaghan-Breiner, C, Karlsson, MP, Karlsson, M, Lee, KY, Liang, H, Magland, JF, Pebbles, JA, Tooker, AC, Greengard, LF, Tolosa, VM & Frank, LM 2019, 'High-Density, Long-Lasting, and Multi-region Electrophysiological Recordings Using Polymer Electrode Arrays', Neuron, vol. 101, no. 1, pp. 21-31.e5. https://doi.org/10.1016/j.neuron.2018.11.002

Chung, Jason E. ; Joo, Hannah R. ; Fan, Jiang Lan ; Liu, Daniel F. ; Barnett, Alex H. ; Chen, Supin ; Geaghan-Breiner, Charlotte ; Karlsson, Mattias P. ; Karlsson, Magnus ; Lee, Kye Y. ; Liang, Hexin ; Magland, Jeremy F. ; Pebbles, Jeanine A. ; Tooker, Angela C. ; Greengard, Leslie F. ; Tolosa, Vanessa M. ; Frank, Loren M. / High-Density, Long-Lasting, and Multi-region Electrophysiological Recordings Using Polymer Electrode Arrays. In: Neuron. 2019 ; Vol. 101, No. 1. pp. 21-31.e5.

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abstract = "Chung et al. present a large-scale, multi-site, polymer electrode-based recording platform. The modular system is capable of data collection from up to 1,024 channels in freely behaving rats, enabling long-term studies of distributed networks.",

keywords = "freely behaving, headstage, massively parallel, modular, multi-electrode recording, polymer, probe, rat, single neuron, spike sorting",

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note = "Funding Information: We thank M. Stryker, K. Ganguly, M. Brainard, and K. Kay for insightful comments; V. Kharazia and A. Kisel for assistance with histology; and M. Borius for assistance with data acquisition hardware. This work was supported by NINDS grant U01NS090537 to L.M.F. and V.M.T. and NIMH grant F30MH109292 to J.E.C. J.E.C. and H.R.J. are supported by NIGMS MSTP Grant #T32GM007618. The Flatiron Institute is a division of the Simons Foundation. Funding Information: We thank M. Stryker, K. Ganguly, M. Brainard, and K. Kay for insightful comments; V. Kharazia and A. Kisel for assistance with histology; and M. Borius for assistance with data acquisition hardware. This work was supported by NINDS grant U01NS090537 to L.M.F. and V.M.T. and NIMH grant F30MH109292 to J.E.C. J.E.C. and H.R.J. are supported by NIGMS MSTP Grant #T32GM007618 . The Flatiron Institute is a division of the Simons Foundation. ",

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