COSMOS | Neuron 2020

I. Kauvar*, T. A. Machado*, E. Yuen, J. Kochalka, M. Choi, W. E. Allen, G. Wetzstein, K. Deisseroth

A computational microscope enabling fast, synchronous recording of cortex-spanning neural dynamics.

ABSTRACT

To advance the measurement of distributed neuronal population representations of targeted motor actions on single trials, we developed an optical method (COSMOS) for tracking neural activity in a largely uncharacterized spatiotemporal regime. COSMOS allowed simultaneous recording of neural dynamics at ∼30 Hz from over a thousand near-cellular resolution neuronal sources spread across the entire dorsal neocortex of awake, behaving mice during a three-option lick-to-target task. We identified spatially distributed neuronal population representations spanning the dorsal cortex that precisely encoded ongoing motor actions on single trials. Neuronal correlations measured at video rate using unaveraged, whole-session data had localized spatial structure, whereas trial-averaged data exhibited widespread correlations. Separable modes of neural activity encoded history-guided motor plans, with similar population dynamics in individual areas throughout cortex. These initial experiments illustrate how COSMOS enables investigation of large-scale cortical dynamics and that information about motor actions is widely shared between areas, potentially underlying distributed computations.

FILES

CITATION

I. Kauvar, T. A. Machado, E. Yuen, J. Kochalka, M. Choi, W. E. Allen, G. Wetzstein, K. Deisseroth, Cortical Observation by Synchronous Multifocal Optical Sampling Reveals Widespread Population Encoding of Actions, Neuron 2020

@inproceedings{Kauvar:2020:cosmos,
author={I. Kauvar, T. A. Machado, E. Yuen, J. Kochalka, M. Choi, W. E. Allen, G. Wetzstein, K. Deisseroth},
title={Cortical Observation by Synchronous Multifocal Optical Sampling Reveals Widespread Population Encoding of Actions},
booktitle={Neuron},
year={2020},
}