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Rotational dynamics in motor cortex are consistent with a feedback controller

Hari Teja Kalidindi, Kevin P Cross, Timothy P Lillicrap, Mohsen Omrani, Egidio Falotico, Philip N Sabes, Stephen H Scott

2021eLife80 citationsDOIOpen Access PDF

Abstract

Recent studies have identified rotational dynamics in motor cortex (MC), which many assume arise from intrinsic connections in MC. However, behavioral and neurophysiological studies suggest that MC behaves like a feedback controller where continuous sensory feedback and interactions with other brain areas contribute substantially to MC processing. We investigated these apparently conflicting theories by building recurrent neural networks that controlled a model arm and received sensory feedback from the limb. Networks were trained to counteract perturbations to the limb and to reach toward spatial targets. Network activities and sensory feedback signals to the network exhibited rotational structure even when the recurrent connections were removed. Furthermore, neural recordings in monkeys performing similar tasks also exhibited rotational structure not only in MC but also in somatosensory cortex. Our results argue that rotational structure may also reflect dynamics throughout the voluntary motor system involved in online control of motor actions.

Topics & Concepts

NeurophysiologySensory systemSomatosensory systemDynamics (music)NeuroscienceMotor controlController (irrigation)Rotational dynamicsComputer scienceMotor cortexControl theory (sociology)Feedback controllerMotor systemFeedback controlPhysicsSensorimotor cortexControl (management)Sensory cortexNerve netAngular velocityNegative feedbackPrimary motor cortexPsychologyCortex (anatomy)Network dynamicsMotor coordinationArtificial neural networkFeedback loopSensory processingMotor Control and AdaptationAction Observation and SynchronizationTranscranial Magnetic Stimulation Studies
Rotational dynamics in motor cortex are consistent with a feedback controller | Litcius