Issue 16, 2023

Protruding cantilever microelectrode array to monitor the inner electrical activity of cerebral organoids

Abstract

Stem cell-derived cerebral organoids are artificially grown miniature organ-like structures mimicking embryonic brain architecture. They are composed of multiple neural cell types with 3D cell layer organization exhibiting local field potential. Measuring the extracellular electrical activity by means of conventional planar microelectrode arrays is particularly challenging due to the 3D architecture of organoids. In order to monitor the intra-organoid electrical activity of thick spheroid-shaped samples, we developed long protruding microelectrode arrays able to penetrate the inner regions of cerebral organoids to measure the local potential of neurons within the organoids. A new microfabrication process has been developed which, thanks to the relaxation of internal stresses of a stack of materials deposited over a sacrificial layer, allows one to build a protruding cantilever microelectrode array placed at the apex of beams which rise vertically, over two hundred microns. These slender beams inserted deeply into the organoids give access to the recording of local field potential from neurons buried inside the organoid. This novel device shall provide valuable tools to study neural functions in greater detail.

Graphical abstract: Protruding cantilever microelectrode array to monitor the inner electrical activity of cerebral organoids

Supplementary files

Article information

Article type
Paper
Submitted
05 Apr 2023
Accepted
14 Jul 2023
First published
17 Jul 2023
This article is Open Access
Creative Commons BY-NC license

Lab Chip, 2023,23, 3603-3614

Protruding cantilever microelectrode array to monitor the inner electrical activity of cerebral organoids

O. Phouphetlinthong, E. Partiot, C. Bernou, A. Sebban, R. Gaudin and B. Charlot, Lab Chip, 2023, 23, 3603 DOI: 10.1039/D3LC00294B

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