Martin Diruf scite author profile

Background: Motor system excitability is based on a complex interaction of excitatory and inhibitory processes, which in turn are modulated by internal (e.g., volitional inhibition) and external (e.g., drugs) factors. A well proven tool to investigate motor system excitability in vivo is the transcranial magnetic stimulation (TMS). In this study, we used TMS to investigate the effects of methylphenidate (MPH) on the temporal dynamics of motor system excitability during a go/nogo task.

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ERP effects of methylphenidate and working memory load in healthy adults during a serial visual working memory task

Studer

Wangler

Diruf

et al. 2010

Neuroscience Letters

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Interplay of neuronal processes during response inhibition: Results from a combined event-related potentials (ERPs)/transcranial magnetic stimulation (TMS) study on methylphenidate

Hoegl

Heinrich

Albrecht

et al. 2011

International Journal of Psychophysiology

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Methylphenidate (MPH) promotes visual cortical activation in healthy adults in a cued visuomotor task

et al. 2012

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Seeking for the mechanisms by which methylphenidate (MPH) improves behavior has demonstrated that MPH modulates excitability in the primary motor cortex. However, little is known about the influence of MPH on top-down controlled mechanisms in the sensory domain. The present study explored the effects of MPH on the activation of visual cortices in healthy adults who performed a cued visuo-motor task in a double-blind placebo-controlled crossover design. Two distinct measures, posterior alpha power and occipital slow cortical potentials (SCPs), were used to reflect raise in excitability and attention-based activation of visual cortical areas. According to the results, performance parameters (reaction time, response variance and error rate) were not affected by MPH. At the neurophysiologic level reflected by reduced alpha power, MPH increased the overall excitability of the occipital cortex, but not the parietal cortex. Before the cued response, MPH reduced alpha power and increased SCPs only before right hand responses, mostly at the right occipital location. It can be concluded that in visuo-motor tasks, MPH has the potency of adjusting the background excitation/inhibition balance of visual areas. Additionally, MPH may raise the attention controlled activation of visual cortical regions, especially during increased response control.

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Martin Diruf

Effects of methylphenidate on motor system excitability in a response inhibition task

ERP effects of methylphenidate and working memory load in healthy adults during a serial visual working memory task

Interplay of neuronal processes during response inhibition: Results from a combined event-related potentials (ERPs)/transcranial magnetic stimulation (TMS) study on methylphenidate

Methylphenidate (MPH) promotes visual cortical activation in healthy adults in a cued visuomotor task

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