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Parallel movement planning is achieved via an optimal preparatory state in motor cortex

Nicolas Meirhaeghe, Alexa Riehle, Thomas Brochier

2023Cell Reports28 citationsDOIOpen Access PDF

Abstract

How do patterns of neural activity in the motor cortex contribute to the planning of a movement? A recent theory developed for single movements proposes that the motor cortex acts as a dynamical system whose initial state is optimized during the preparatory phase of the movement. This theory makes important yet untested predictions about preparatory dynamics in more complex behavioral settings. Here, we analyze preparatory activity in non-human primates planning not one but two movements simultaneously. As predicted by the theory, we find that parallel planning is achieved by adjusting preparatory activity within an optimal subspace to an intermediate state reflecting a trade-off between the two movements. The theory quantitatively accounts for the relationship between this intermediate state and fluctuations in the animals' behavior down at the trial level. These results uncover a simple mechanism for planning multiple movements in parallel and further point to motor planning as a controlled dynamical process.

Topics & Concepts

Motor planningMovement (music)Motor cortexNeuroscienceComputer scienceMechanism (biology)Process (computing)Motor systemPsychologyControl theory (sociology)Artificial intelligencePhysicsControl (management)StimulationQuantum mechanicsAcousticsOperating systemNeural dynamics and brain functionEEG and Brain-Computer InterfacesMotor Control and Adaptation
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