Effects of modafinil and methylphenidate on visual attention capacity: a TVA-based study

Finke, Kathrin; Dodds, Chris M.; Bublak, Peter; Regenthal, Ralf; Baumann, Frank; Manly, Tom; Müller, U.

doi:10.1007/s00213-010-1823-x

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Effects of modafinil and methylphenidate on visual attention capacity: a TVA-based study
Citation	Finke K, Dodds CM, Bublak P, Regenthal R, Baumann F, Manly T, Müller U. Psychopharmacology 2010; 210(3): 317-329.
Affiliation	Department of Psychology, Experimental Psychology, Ludwig Maximilian University, Munich, Germany, finke@psy.uni-muenchen.de.
Copyright	(Copyright © 2010, Holtzbrinck Springer Nature Publishing Group)
DOI	10.1007/s00213-010-1823-x
PMID	20352415
Abstract	INTRODUCTION: Theory of visual attention (TVA; Bundesen 1990) whole report tasks allow the independent measurement of visual perceptual processing speed and visual short-term memory (vSTM) storage capacity, unconfounded by motor speed. This study investigates how cognitive enhancing effects of psychostimulants depend on baseline performance and individual plasma levels. MATERIALS AND METHODS: Eighteen healthy volunteers (aged 20-35 years) received single oral doses of either 40 mg methylphenidate, 400 mg modafinil or placebo in a counterbalanced, double-blind crossover design. A whole report of visually presented letter arrays was performed 2.5-3.5 h after drug administration, and blood samples for plasma level analysis were taken. RESULTS: Methylphenidate and modafinil both enhanced perceptual processing speed in participants with low baseline (placebo) performance. These improvements correlated with subjective alertness. Furthermore, we observed differential plasma level-dependent effects of methylphenidate in lower and higher performing participants: higher plasma levels led to a greater improvement in low-performing participants and to decreasing improvement in high-performing participants. Modafinil enhanced visual short-term memory storage capacity in low-performing participants. CONCLUSIONS: This is the first pharmacological investigation demonstrating the usefulness of a TVA task for high-resolution and repeated cognitive parameter estimation after cognitive-enhancing medication. Our results confirm previous findings of attentional capacity improvements in low performers and extend the baseline dependency model to methylphenidate. Plasma level-dependent effects of psychostimulants can be modelled on an inverted U-shaped dose-response relationship, which is highly relevant to predict cognitive enhancing and detrimental effects of psychostimulants in patients with cognitive deficits (e.g., attention deficit hyperactivity disorder) and healthy volunteers (e.g., self-medicating academics). Language: en