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Transitions in dynamical regime and neural mode during perceptual decisions

Thomas Zhihao Luo, Timothy Doyeon Kim, Diksha Gupta, Adrian Bondy, Charles D. Kopec, Verity Alexander Elliott, Brian DePasquale, Carlos D. Brody

2025Nature13 citationsDOIOpen Access PDF

Abstract

Abstract Perceptual decision-making is thought to be mediated by neuronal networks with attractor dynamics 1,2 . However, the dynamics underlying the complex neuronal responses during decision-making remain unclear. Here we use simultaneous recordings of hundreds of neurons, combined with an unsupervised, deep-learning-based method, to discover decision-related neural dynamics in the rat frontal cortex and striatum as animals accumulate pulsatile auditory evidence. We found that trajectories evolved along two sequential regimes: an initial phase dominated by sensory inputs, followed by a phase dominated by autonomous dynamics, with the flow direction (that is, neural mode) largely orthogonal to that in the first regime. We propose that this transition marks the moment of decision commitment, that is, the time when the animal makes up its mind. To test this, we developed a simplified model of the dynamics to estimate a putative neurally inferred time of commitment (nTc) for each trial. This model captures diverse single-neuron temporal profiles, such as ramping and stepping 3,4 . The estimated nTc values were not time locked to stimulus or response timing but instead varied broadly across trials. If nTc marks commitment, evidence before this point should affect the decision, whereas evidence afterwards should not. Behavioural analysis aligned to nTc confirmed this prediction. Our findings show that decision commitment involves a rapid, coordinated transition in dynamical regime and neural mode and suggest that nTc offers a useful neural marker for studying rapid changes in internal brain state.

Topics & Concepts

AttractorNeuroscienceStimulus (psychology)PerceptionSensory systemComputer scienceArtificial neural networkRhythmBiological neural networkPulsatile flowTime perceptionPhysicsNeural activityNeural ensemblePsychologyNeurophysiologyDynamics (music)Mode (computer interface)Dynamical systems theoryStriatumA priori and a posterioriTransition (genetics)Statistical physicsArtificial intelligencePhase transitionNeural systemElectroencephalographyBiologyCognitive psychologySensationChaoticNeural dynamics and brain functionNeural and Behavioral Psychology StudiesVisual perception and processing mechanisms