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. 2025 Apr 17;188(8):2218-2234.e22.
doi: 10.1016/j.cell.2025.01.041. Epub 2025 Feb 28.

A deep learning strategy to identify cell types across species from high-density extracellular recordings

Maxime Beau  1 David J Herzfeld  2 Francisco Naveros  3 Marie E Hemelt  2 Federico D'Agostino  1 Marlies Oostland  4 Alvaro Sánchez-López  5 Young Yoon Chung  1 Michael Maibach  1 Stephen Kyranakis  5 Hannah N Stabb  1 M Gabriela Martínez Lopera  1 Agoston Lajko  1 Marie Zedler  1 Shogo Ohmae  5 Nathan J Hall  2 Beverley A Clark  1 Dana Cohen  6 Stephen G Lisberger  2 Dimitar Kostadinov  7 Court Hull  2 Michael Häusser  8 Javier F Medina  9
Affiliations

A deep learning strategy to identify cell types across species from high-density extracellular recordings

Maxime Beau et al. Cell. .

Abstract

High-density probes allow electrophysiological recordings from many neurons simultaneously across entire brain circuits but fail to reveal cell type. Here, we develop a strategy to identify cell types from extracellular recordings in awake animals and reveal the computational roles of neurons with distinct functional, molecular, and anatomical properties. We combine optogenetics and pharmacology using the cerebellum as a testbed to generate a curated ground-truth library of electrophysiological properties for Purkinje cells, molecular layer interneurons, Golgi cells, and mossy fibers. We train a semi-supervised deep learning classifier that predicts cell types with greater than 95% accuracy based on the waveform, discharge statistics, and layer of the recorded neuron. The classifier's predictions agree with expert classification on recordings using different probes, in different laboratories, from functionally distinct cerebellar regions, and across species. Our classifier extends the power of modern dynamical systems analyses by revealing the unique contributions of simultaneously recorded cell types during behavior.

Keywords: Neuropixels; cell-type identification; cerebellar cortex; cerebellum; circuit mapping; classification; machine learning; variational autoencoder.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

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