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The effect of noradrenergic attenuation by clonidine on inhibition in the stop signal task

Understanding the neuropharmacology of inhibition is of importance to fuel optimal treatment for disorders such as Attention Deficit/Hyperactivity Disorder. The aim of the present study was to assess the effect of noradrenergic antagonism by clonidine on behavioral-performance and brain-activity ind...

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Published in:Pharmacology, biochemistry and behavior biochemistry and behavior, 2013-09, Vol.110, p.104-111
Main Authors: Logemann, H.N. Alexander, Böcker, Koen B.E., Deschamps, Peter K.H., Kemner, Chantal, Kenemans, J. Leon
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container_title Pharmacology, biochemistry and behavior
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description Understanding the neuropharmacology of inhibition is of importance to fuel optimal treatment for disorders such as Attention Deficit/Hyperactivity Disorder. The aim of the present study was to assess the effect of noradrenergic antagonism by clonidine on behavioral-performance and brain-activity indices of inhibition. A placebo-controlled, double-blind, randomized, crossover design was implemented. Male (N=21) participants performed in a visual stop signal task while EEG was recorded under clonidine in one session and under placebo in another. We expected that 100μg clonidine would have a negative effect on EEG indices of inhibition, the Stop N2 and Stop P3. Furthermore, we expected that clonidine would negatively affect the behavioral measure of inhibition, the stop signal reaction time (SSRT). Behavioral analyses were performed on data of 17 participants, EEG analyses on a subset (N=13). Performance data suggested that clonidine negatively affected attention (response variability, omissions) without affecting inhibition as indexed by SSRT. Electrophysiological data show that clonidine reduced the Stop P3, but not the Stop N2, indicating a partial negative effect on inhibition. Results show that it is unlikely that the Stop P3 reduction was related to the effect of clonidine on lapses of attention and on peripheral cardiovascular functioning. In conclusion, the current dose of clonidine had a negative effect on attention and a partial effect on inhibitory control. This inhibitory effect was restricted to the dorsal region of the prefrontal cortex (presumably the superior frontal gyrus) as opposed to the ventral region of the prefrontal cortex (right inferior frontal gyrus). •Noradrenergic antagonism resulted in increased response variability.•No effect of noradrenergic antagonism was apparent on behavioral inhibitory control.•Noradrenergic antagonism did seem to affect brain activity mechanisms of inhibition.•The drug effect seemed restricted to dorsal as opposed to ventral prefrontal cortex.
doi_str_mv 10.1016/j.pbb.2013.06.007
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subjects Adrenergic alpha-2 Receptor Agonists - pharmacology
Clonidine
Clonidine - pharmacology
Double-Blind Method
Electroencephalography
Humans
Inhibition
Male
Noradrenaline
Norepinephrine
Norepinephrine - metabolism
Placebos
SSRT
Task Performance and Analysis
title The effect of noradrenergic attenuation by clonidine on inhibition in the stop signal task
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