Haloperidol 2 mg impairs inhibition but not visuospatial attention

H. N. Alexander Logemann*, Koen B. E. Bocker, Peter K. H. Deschamps, Peter N. van Harten, Jeroen Koning, Chantal Kemner, Zsfia Logemann-Molnar, J. Leon Kenemans

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

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Abstract

Dopaminergic neurotransmission was attenuated in 28 healthy male participants by using 2 mg haloperidol. A repeated-measures placebo-controlled crossover design was implemented, and performance indices of attention and inhibition were assessed in the visual spatial cueing task (VSC) and stop signal task (SST). Additionally, the effect of haloperidol on motoric parameters was assessed. It was expected that haloperidol as contrasted to placebo would result in a reduction of the "validity effect," the benefit of valid cueing as opposed to invalid cueing of a target in terms of reaction time. Furthermore, an increase in stop signal reaction time (SSRT) in the SST was expected.

Results partially confirmed the hypothesis. Haloperidol negatively affected inhibitory motor control in the SST as indexed by SSRT, but there were no indications that haloperidol affected bias or disengagement in the VSC task as indicated by a lack of an effect on RTs. Pertaining to secondary parameters, motor activity increased significantly under haloperidol. Haloperidol negatively affected reaction time variability and errors in both tasks, as well as omissions in the SST, indicating a decreased sustained attention, an increase in premature responses, and an increase in lapses of attention, respectively.

Original languageEnglish
Pages (from-to)235-244
Number of pages10
JournalPsychopharmacology
Volume234
Issue number2
DOIs
Publication statusPublished - Jan 2017

Keywords

  • Dopaminergic
  • Dopamine
  • Haloperidol
  • Inhibition
  • Attention
  • Motor activity
  • STOP-SIGNAL TASK
  • CHOICE REACTION-TIME
  • DEFICIT/HYPERACTIVITY DISORDER
  • BEHAVIORAL-INHIBITION
  • ANTIPSYCHOTIC-DRUGS
  • RECEPTOR-BINDING
  • D-AMPHETAMINE
  • HUMAN-BRAIN
  • DOPAMINE
  • IMPULSIVITY

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