Neuropixels 2.0: A miniaturized high-density probe for stable, long-term brain recordings
Author:
Steinmetz Nicholas A.ORCID, Aydin Cagatay, Lebedeva Anna, Okun Michael, Pachitariu Marius, Bauza Marius, Beau Maxime, Bhagat Jai, Böhm Claudia, Broux Martijn, Chen Susu, Colonell Jennifer, Gardner Richard J., Karsh Bill, Kostadinov Dimitar, Mora-Lopez Carolina, Park Junchol, Putzeys Jan, Sauerbrei Britton, van Daal Rik J. J., Vollan Abraham Z., Welkenhuysen Marleen, Ye Zhiwen, Dudman Joshua, Dutta Barundeb, Hantman Adam W., Harris Kenneth D., Lee Albert K., Moser Edvard I., O’Keefe John, Renart Alfonso, Svoboda Karel, Häusser Michael, Haesler Sebastian, Carandini Matteo, Harris Timothy D.
Abstract
AbstractTo study the dynamics of neural processing across timescales, we require the ability to follow the spiking of thousands of individually separable neurons over weeks and months, during unrestrained behavior. To address this need, we introduce the Neuropixels 2.0 probe together with novel analysis algorithms. The new probe has over 5,000 sites and is miniaturized such that two probes plus a headstage, recording 768 sites at once, weigh just over 1 g, suitable for implanting chronically in small mammals. Recordings with high quality signals persisting for at least two months were reliably obtained in two species and six different labs. Improved site density and arrangement combined with new data processing methods enable automatic post-hoc stabilization of data despite brain movements during behavior and across days, allowing recording from the same neurons in the mouse visual cortex for over 2 months. Additionally, an optional configuration allows for recording from multiple sites per available channel, with a penalty to signal-to-noise ratio. These probes and algorithms enable stable recordings from >10,000 sites during free behavior in small animals such as mice.
Publisher
Cold Spring Harbor Laboratory
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