6533b85dfe1ef96bd12be790

RESEARCH PRODUCT

Training the Motor Cortex by Observing the Actions of Others During Immobilization

Martina CampanellaLuciano FadigaMarco BoveThierry PozzoMichela Bassolino

subject

AdultMaleImagery PsychotherapyCognitive Neurosciencemedicine.medical_treatmentinternal simulationMIRROR-NEURON SYSTEMObservationIMAGERYaction observationBrain mappingBRAIN PLASTICITYImmobilizationYoung AdultCellular and Molecular Neurosciencemotor imageryMotor imageryNeuroplasticityHAND MOVEMENTSmedicineHumansMirror neuronARM MOVEMENTSAFFERENT INPUTAnalysis of VarianceBrain MappingUPPER-LIMB AMPUTATIONMotor CortexCORTICOSPINAL EXCITABILITYArticlesEvoked Potentials MotorTranscranial Magnetic StimulationTranscranial magnetic stimulationmedicine.anatomical_structureAction (philosophy)FacilitationFemale[ SCCO ] Cognitive sciencedirect-matching hypothesisPsychologyNeurosciencePsychomotor PerformanceMotor cortex

description

International audience; Limb immobilization and nonuse are well-known causes of corticomotor depression. While physical training can drive the recovery from nonuse-dependent corticomotor effects, it remains unclear if it is possible to gain access to motor cortex in alternative ways, such as through motor imagery (MI) or action observation (AO). Transcranial magnetic stimulation was used to study the excitability of the hand left motor cortex in normal subjects immediately before and after 10 h of right arm immobilization. During immobilization, subjects were requested either to imagine to act with their constrained limb or to observe hand actions performed by other individuals. A third group of control subjects watched a nature documentary presented on a computer screen. Hand corticomotor maps and recruitment curves reliably showed that AO, but not MI, prevented the corticomotor depression induced by immobilization. Our results demonstrate the existence of a visuomotor mechanism in humans that links AO and execution which is able to effect cortical plasticity in a beneficial way. This facilitation was not related to the action simulation, because it was not induced by explicit MI.

yearjournalcountryeditionlanguage
2014-01-01Cerebral Cortex
https://doi.org/10.1093/cercor/bht190