Publications

Publications

 


Selected Publications

Mueller2015

High-resolution CMOS MEA platform to study neurons at subcellular, cellular, and network levels

Presenting measurements of neuronal preparations with a novel CMOS-based microelectrode array at high-spatiotemporal-resolution on subcellular, cellular, and network level.

J. Müller, M. Ballini, P. Livi, Y. Chen, M. Radivojevic, A. Shadmani, V. Viswam, I. L. Jones, M. Fiscella, R. Diggelmann, A. Stettler, U. Frey, D. J. Bakkum, and A. Hierlemann, “High-resolution CMOS MEA platform to study neurons at subcellular, cellular, and network levels,” Lab Chip, vol. 15, no. 13, pp. 2767–2780, May 2015.

Obien2014

Revealing Neuronal Function through Microelectrode Array Recordings

Reviewing the current understanding of microelectrode signals and the techniques for analyzing them, with focus on the ongoing advancements in microelectrode technology (in vivo and in vitro) and recent advanced microelectrode array measurement methods that facilitate the understanding of single neurons and network function.

M. E. J. Obien, K. Deligkaris, T. Bullmann, D. J. Bakkum, and U. Frey, “Revealing Neuronal Function through Microelectrode Array Recordings,” Front. Neurosci., 8:423, Jan 2015.

Ballini2014

A 1024-Channel CMOS Microelectrode Array With 26,400 Electrodes for Recording and Stimulation of Electrogenic Cells In Vitro

A high-resolution CMOS-based microelectrode array featuring 1,024 low-noise readout channels, 26,400 electrodes at a density of 3,265 electrodes per mm2, including on-chip 10bit ADCs and consuming only 75 mW.

M. Ballini, J. Muller, P. Livi, Y. Chen, U. Frey, A. Stettler, A. Shadmani, V. Viswam, I. L. Jones, D. Jackel, M. Radivojevic, M. K. Lewandowska, W. Gong, M. Fiscella, D. J. Bakkum, F. Heer, and A. Hierlemann, “A 1024-Channel CMOS Microelectrode Array With 26,400 Electrodes for Recording and Stimulation of Electrogenic Cells In Vitro,” IEEE Journal of Solid-State Circuits, vol. 49, no. 11, pp. 2705-2719, 2014.

Bakkum2013ncomm

Tracking axonal action potential propagation on a high-density microelectrode array across hundreds of sites

Demonstrating a method to electrically visualize action potential propagation on axons and revealing
large variations in velocity.

D. J. Bakkum, U. Frey, M. Radivojevic, T. L. Russell, J. Muller, M. Fiscella, H. Takahashi, and A. Hierlemann, “Tracking axonal action potential propagation on a high-density microelectrode array across hundreds of sites,” Nature Communications, 4:2181, Jul 2013.

Frey08BioSensors

Microelectronic System for High-Resolution Mapping of Extracellular Electric Fields Applied to Brain Slices

Recording and modeling extracellular action potentials of Purkinje cells at subcellular resolution.

U. Frey, U. Egert, F. Heer, S. Hafizovic, and A. Hierlemann, “Microelectronic System for High-Resolution Mapping of Extracellular Electric Fields Applied to Brain Slices,” Biosensors and Bioelectronics, vol. 24, no. 7, pp. 2191-2198, 2009.

SanchezBustamante07NRC

Modulation of Cardiomyocyte Electrical Properties Using Regulated Bone Morphogenetic Protein-2 Expression

Controlling BMP-2 expression to modulate the electrophysiological properties of cardiomyocytes using an HD-MEA for detailed monitoring.

C. D. Sanchez-Bustamante, U. Frey, J. M. Kelm, A. Hierlemann, and M. Fussenegger,
“Modulation of Cardiomyocyte Electrical Properties Using Regulated Bone Morphogenetic Protein-2 Expression,” Tissue Engineering Part A, vol. 14, no. 12, pp. 1969-1988, 2008.


All Publications

Show all

2020

Perceptual saccadic suppression starts in the retina

Idrees, Saad; Baumann, Matthias P; Franke, Felix; Münch, Thomas A; Hafed, Ziad M

Perceptual saccadic suppression starts in the retina Journal Article

Nature Communications, 11 (1977), 2020.

Links | BibTeX | Tags: ETH-CMOS-MEA, MaxOne, Retina

2018

How diverse retinal functions arise from feedback at the first visual synapse

da Drinnenberg Antonia; Franke, Felix; Morikawa Rei Jüttner; Hillier Daniel; Hantz Peter; Hierlemann Andreas; Azeredo Silveira Rava; Roska Botond K;

How diverse retinal functions arise from feedback at the first visual synapse Journal Article

Neuron, 99 (1), pp. 117-134, 2018.

Abstract | Links | BibTeX | Tags: Retina

2017

Causal evidence for retina-dependent and -independent visual motion computations in mouse cortex

Hillier, Daniel; Fiscella, Michele; Drinnenberg, Antonia; Trenholm, Stuart; Rompani, Santiago B; Raics, Zoltan; Katona, Gergely; Jüttner, Josephine; Hierlemann, Andreas; Rozsa, Balazs; Roska, Botond

Causal evidence for retina-dependent and -independent visual motion computations in mouse cortex Journal Article

Nature Neuroscience, 20 (7), pp. 960–968, 2017, ISSN: 1097-6256.

Abstract | Links | BibTeX | Tags: MaxOne, Retina

2016

Structures of Neural Correlation and How They Favor Coding

Franke, Felix; Fiscella, Michele; Sevelev, Maksim; Roska, Botond; Hierlemann, Andreas; Azeredo da Silveira, Rava

Structures of Neural Correlation and How They Favor Coding Journal Article

Neuron, 89 (2), pp. 409-422, 2016, ISSN: 10974199.

Abstract | Links | BibTeX | Tags: Data Analysis, ETH-CMOS-MEA, Neuronal Networks, Retina

Congenital Nystagmus Gene FRMD7 Is Necessary for Establishing a Neuronal Circuit Asymmetry for Direction Selectivity

Yonehara, Keisuke; Fiscella, Michele; Drinnenberg, Antonia; Esposti, Federico; Trenholm, Stuart; Krol, Jacek; Franke, Felix; Scherf, Brigitte Gross; Kusnyerik, Akos; Müller, Jan; Szabo, Arnold; Jüttner, Josephine; Cordoba, Francisco; Reddy, Ashrithpal Police; Németh, János; Nagy, Zoltán Zsolt; Munier, Francis; Hierlemann, Andreas; Roska, Botond

Congenital Nystagmus Gene FRMD7 Is Necessary for Establishing a Neuronal Circuit Asymmetry for Direction Selectivity Journal Article

Neuron, 89 (1), pp. 177-193, 2016, ISSN: 10974199.

Abstract | Links | BibTeX | Tags: ETH-CMOS-MEA, Retina

2015

A method for electrophysiological characterization of hamster retinal ganglion cells using a high-density CMOS microelectrode array

Jones, Ian L; Russell, Thomas L; Farrow, Karl; Fiscella, Michele; Franke, Felix; Müller, Jan; Jäckel, David; Hierlemann, Andreas

A method for electrophysiological characterization of hamster retinal ganglion cells using a high-density CMOS microelectrode array Journal Article

Frontiers in Neuroscience, 9 , pp. 360, 2015, ISSN: 1662453X.

Abstract | Links | BibTeX | Tags: ETH-CMOS-MEA, Retina

Visual coding with a population of direction-selective neurons

Fiscella, Michele; Franke, Felix; Farrow, Karl; Müller, Jan; Roska, Botond; Azeredo da Silveira, Rava ; Hierlemann, Andreas

Visual coding with a population of direction-selective neurons Journal Article

Journal of Neurophysiology, 114 (4), pp. 2485-2499, 2015, ISSN: 0022-3077.

Abstract | Links | BibTeX | Tags: Data Analysis, ETH-CMOS-MEA, Retina

A network comprising short and long noncoding RNAs and RNA helicase controls mouse retina architecture.

Krol, Jacek; Krol, Ilona; Alvarez, Claudia Patricia Patino; Fiscella, Michele; Hierlemann, Andreas; Roska, Botond; Filipowicz, Witold

A network comprising short and long noncoding RNAs and RNA helicase controls mouse retina architecture. Journal Article

Nature Communications, 6 , pp. 7305, 2015, ISSN: 2041-1723.

Abstract | Links | BibTeX | Tags: MaxOne, Retina

2012

Recording from defined populations of retinal ganglion cells using a high-density CMOS-integrated microelectrode array with real-time switchable electrode selection

Fiscella, Michele; Farrow, Karl; Jones, Ian L; Jäckel, David; Müller, Jan; Frey, Urs; Bakkum, Douglas J; Hantz, Péter; Roska, Botond; Hierlemann, Andreas

Recording from defined populations of retinal ganglion cells using a high-density CMOS-integrated microelectrode array with real-time switchable electrode selection Journal Article

Journal of Neuroscience Methods, 211 (1), pp. 103-113, 2012, ISSN: 01650270.

Abstract | Links | BibTeX | Tags: ETH-CMOS-MEA, Retina

 

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