Stephen V. David scite author profile

The neural correlates of optimal states for signal detection task performance are largely unknown. One hypothesis holds that optimal states exhibit tonically depolarized cortical neurons with enhanced spiking activity, such as occur during movement. We recorded membrane potentials of auditory cortical neurons in mice trained on a challenging tone-in-noise detection task while assessing arousal with simultaneous pupillometry and hippocampal recordings. Arousal measures accurately predicted multiple modes of membrane potential activity, including: rhythmic slow oscillations at low arousal, stable hyperpolarization at intermediate arousal, and depolarization during phasic or tonic periods of hyper-arousal. Walking always occurred during hyper-arousal. Optimal signal detection behavior and sound-evoked responses, at both sub-threshold and spiking levels, occurred at intermediate arousal when pre-decision membrane potentials were stably hyperpolarized. These results reveal a cortical physiological signature of the classically-observed inverted-U relationship between task performance and arousal, and that optimal detection exhibits enhanced sensory-evoked responses and reduced background synaptic activity.

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Spatial filter selection for EEG-based communication

McFarland

McCane

David

et al. 1997

Electroencephalography and Clinical Neurophysiology

815

470

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Reconstructing Speech from Human Auditory Cortex

et al. 2012

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Auditory attention—focusing the searchlight on sound

Fritz

Elhilali

David

et al. 2007

Current Opinion in Neurobiology

442

376

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Stephen V. David

Cortical Membrane Potential Signature of Optimal States for Sensory Signal Detection

Spatial filter selection for EEG-based communication

Reconstructing Speech from Human Auditory Cortex

Auditory attention—focusing the searchlight on sound

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