Methylphenidate promotes the interaction between motor cortex facilitation and attention in healthy adults: A combined study using event‐related potentials and transcranial magnetic stimulation

Objective This study investigated simultaneously the impact of methylphenidate (MPH) on the interaction of inhibitory and facilitative pathways in regions processing motor and cognitive functions. Method Neural markers of attention and response control (event‐related potentials) and motor cortical e...

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Bibliographic Details
Published in:Brain and behavior 2018-12, Vol.8 (12), p.e01155-n/a
Main Authors: Berger, Christoph, Müller‐Godeffroy, Juliane, Marx, Ivo, Reis, Olaf, Buchmann, Johannes, Dück, Alexander
Format: Article
Language:English
Subjects:
Adolescent
Adult
Analysis of Variance
attention
Attention - drug effects
Attention Deficit Disorder with Hyperactivity
Central Nervous System Stimulants - pharmacology
CNV
Cortical Excitability - drug effects
Cues
event‐related potentials
Evoked Potentials - drug effects
Evoked Potentials - physiology
Female
Healthy Volunteers
Humans
ICF
Male
methylphenidate
Methylphenidate - pharmacology
motor control
Motor Cortex - drug effects
Motor Cortex - physiology
Neural Inhibition - drug effects
Neural Inhibition - physiology
Original Research
SICF
Stimulants
Transcranial Magnetic Stimulation
Young Adult
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Summary:Objective This study investigated simultaneously the impact of methylphenidate (MPH) on the interaction of inhibitory and facilitative pathways in regions processing motor and cognitive functions. Method Neural markers of attention and response control (event‐related potentials) and motor cortical excitability (transcranial magnetic stimulation) and their pharmacological modulation by MPH were measured simultaneously in a sample of healthy adults (n = 31) performing a cued choice reaction test. Results Methylphenidate modulated attentional gating and response preparation processes (increased contingent negative variation) and response inhibition (increased nogo P3). N1, cue‐ and go‐P3 were not affected by MPH. Motor cortex facilitation, measured with long‐interval cortical facilitation, was increased under MPH in the nogo condition and was positively correlated with the P3 amplitude. Conclusion Methylphenidate seems particularly to enhance response preparation processes. The MPH‐induced increased motor cortex facilitation during inhibitory task demands was accompanied by increased terminal response inhibition control, probably as a compensatory process. Neural markers of attention and motor cortical excitability and their pharmacological modulation by MPH were measured simultaneously in healthy adults performing a cued choice reaction test. MPH induced an increase of motor cortex facilitation during inhibitory task demands, which was accompanied by increased terminal response inhibition control, probably as a compensatory process.
ISSN:2162-3279
2162-3279
DOI:10.1002/brb3.1155