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Rapid and Bihemispheric Reorganization of Neuronal Activity in Premotor Cortex after Brain Injury

Ian Moreau-Debord, Éléonore Serrano, Stephan Quessy, Numa Dancause

2021Journal of Neuroscience18 citationsDOIOpen Access PDF

Abstract

Brain injuries cause hemodynamic changes in several distant, spared areas from the lesion. Our objective was to better understand the neuronal correlates of this reorganization in awake, behaving female monkeys. We used reversible inactivation techniques to “injure” the primary motor cortex, while continuously recording neuronal activity of the ventral premotor cortex in the two hemispheres, before and after the onset of behavioral impairments. Inactivation rapidly induced profound alterations of neuronal discharges that were heterogeneous within each and across the two hemispheres, occurred during movements of either the affected or nonaffected arm, and varied during different phases of grasping. Our results support that extensive, and much more complex than expected, neuronal reorganization takes place in spared areas of the bihemispheric cortical network involved in the control of hand movements. This broad pattern of reorganization offers potential targets that should be considered for the development of neuromodulation protocols applied early after brain injury. SIGNIFICANCE STATEMENT It is well known that brain injuries cause changes in several distant, spared areas of the network, often in the premotor cortex. This reorganization is greater early after the injury and the magnitude of early changes correlates with impairments. However, studies to date have used noninvasive brain imaging approaches or have been conducted in sedated animals. Therefore, we do not know how brain injuries specifically affect the activity of neurons during the generation of movements. Our study clearly shows how a lesion rapidly impacts neurons in the premotor cortex of both hemispheres. A better understanding of these complex changes can help formulate hypotheses for the development of new treatments that specifically target neuronal reorganization induced by lesions in the brain.

Topics & Concepts

NeurosciencePremotor cortexPremovement neuronal activityNeuromodulationBrain activity and meditationMotor cortexPsychologyCortex (anatomy)Primary motor cortexBrain mappingLesionCerebral cortexElectrophysiologyNerve netSupplementary motor areaTraumatic brain injuryMotor areaStroke (engine)MedicineNeuroimagingNeuroplasticityInhibitory postsynaptic potentialHuman brainBrain damageMotor controlCentral nervous systemFunctional magnetic resonance imagingBiological neural networkTranscranial Magnetic Stimulation StudiesNeurological disorders and treatmentsFunctional Brain Connectivity Studies