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RESEARCH PRODUCT
Priming the Motor Cortex With Anodal Transcranial Direct Current Stimulation Affects the Acute Inhibitory Corticospinal Responses to Strength Training.
Timo RantalainenAshlyn K. FrazerJanne AvelaGlyn HowatsonJuha P. AhtiainenDawson Kidgellsubject
Malecorticospinal silent periodmedicine.medical_treatmentstrength exercisePyramidal TractsIsometric exercise030204 cardiovascular system & hematologyTranscranial Direct Current Stimulation0302 clinical medicineElbowOrthopedics and Sports Medicineta315Cross-Over StudiesNeuronal PlasticityTranscranial direct-current stimulationMotor CortexGeneral Medicinemedicine.anatomical_structurestimulointiFemalecorticospinal excitabilityvoimaharjoitteluPriming (psychology)Motor cortexAdultmedicine.medical_specialtyStrength trainingkeskushermostoneuroplasticityeducationB100Physical Therapy Sports Therapy and RehabilitationInhibitory postsynaptic potentialta311203 medical and health sciencesYoung AdultPhysical medicine and rehabilitationDouble-Blind MethodIsometric ContractionNeuroplasticitymedicineHumansneuroplastisuusbusiness.industryResistance Training030229 sport sciencesEvoked Potentials MotorTranscranial magnetic stimulationaivokuoriNeuroplasticitytranscranial direct current stimulationbusinessdescription
Frazer, AK, Howatson, G, Ahtiainen, JP, Avela, J, Rantalainen, T, and Kidgell, DJ. Priming the motor cortex with anodal transcranial direct current stimulation affects the acute inhibitory corticospinal responses to strength training. J Strength Cond Res 33(2): 307-317, 2019-Synaptic plasticity in the motor cortex (M1) is associated with strength training (ST) and can be modified by transcranial direct current stimulation (tDCS). The M1 responses to ST increase when anodal tDCS is applied during training due to gating. An additional approach to improve the M1 responses to ST, which has not been explored, is to use anodal tDCS to prime the M1 before a bout of ST. We examined the priming effects of anodal tDCS of M1 on the acute corticospinal responses to ST. In a randomized double-blinded cross-over design, changes in isometric strength, corticospinal excitability, and inhibition (assessed as area under the recruitment curve [AURC] using transcranial magnetic stimulation) were analyzed in 13 adults exposed to 20 minutes of anodal tDCS and sham tDCS followed by a ST session of the right elbow flexors. We observed a significant decrease in isometric elbow-flexor strength immediately after training (11-12%; p < 0.05), which was not different between anodal tDCS and sham tDCS. Transcranial magnetic stimulation revealed a 24% increase in AURC for corticospinal excitability after anodal tDCS and ST; this increase was not different between conditions. However, there was a 14% reduction in AURC for corticospinal inhibition when anodal tDCS was applied before ST when compared with sham tDCS and ST (all p < 0.05). Priming anodal tDCS had a limited effect in facilitating corticospinal excitability after an acute bout of ST. Interestingly, the interaction of anodal tDCS and ST seems to affect the excitability of intracortical inhibitory circuits of the M1 through nonhomeostatic mechanisms.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-02-01 | Journal of strength and conditioning research |