Utility of event-related potentials in predicting antidepressant treatment response: An iSPOT-D report
Publication year
2015Author(s)
Number of pages
10 p.
Source
European Neuropsychopharmacology, 25, 11, (2015), pp. 1981-1990ISSN
Publication type
Article / Letter to editor
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Organization
SW OZ DCC NRP
Cognitive Neuroscience
SW OZ BSI OLO
Medical Psychology
Journal title
European Neuropsychopharmacology
Volume
vol. 25
Issue
iss. 11
Languages used
English (eng)
Page start
p. 1981
Page end
p. 1990
Subject
DI-BCB_DCC_Theme 3: Plasticity and Memory; Learning and Plasticity; Neuropsychology and rehabilitation psychology; Radboudumc 1: Alzheimer`s disease DCMN: Donders Center for Medical Neuroscience; Radboudumc 7: Neurodevelopmental disorders DCMN: Donders Center for Medical Neuroscience; Neuro- en revalidatiepsychologieAbstract
It is essential to improve antidepressant treatment of major depressive disorder (MDD) and one way this could be achieved is by reducing the number of treatment steps by employing biomarkers that can predict treatment outcome. This study investigated differences between MDD patients and healthy controls in the P3 and N1 component from the event-related potential (ERP) generated in a standard two-tone oddball paradigm. Furthermore, the P3 and N1 are investigated as predictors for treatment outcome to three different antidepressants.
In the international Study to Predict Optimized Treatment in Depression (iSPOT-D) – a multi-center, international, randomized, prospective practical trial – 1008 MDD participants were randomized to escitalopram, sertraline or venlafaxine-XR. The study also recruited 336 healthy controls. Treatment response and remission were established after eight weeks using the 17-item Hamilton Rating Scale for Depression. P3 and N1 latencies and amplitudes were analyzed using a peak-picking approach and further replicated by using exact low resolution tomography (eLORETA).
A reduced P3 was found in MDD patients compared to controls by a peak-picking analysis. This was validated in a temporal global field power analysis. Source density analysis revealed that the difference in cortical activity originated from the posterior cingulate and parahippocampal gyrus. Male non-responders to venlafaxine-XR had significantly smaller N1 amplitudes than responders. This was demonstrated by both analytical methods. Male non-responders to venlafaxine-XR had less activity originating from the left insular cortex.
The observed results are discussed from a neural network viewpoint.
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