Neurophysiologic Correlates of Side Effects in Normal Subjects Randomized to Venlafaxine or Placebo

Adverse events reported in the context of medication administration may be due to pharmacodynamic and/or nonpharmacodynamic effects (eg, nocebo phenomena). Neurophysiological substrates of side effects may be examined in placebo-controlled antidepressant treatment trials. We explored the relationshi...

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Veröffentlicht in:	Neuropsychopharmacology (New York, N.Y.) N.Y.), 2005-04, Vol.30 (4), p.792-799
Hauptverfasser:	HUNTER, Aimee M, LEUCHTER, Andrew F, MORGAN, Melinda L, COOK, Ian A, ABRAMS, Michelle, SIEGMAN, Barbara, DEBROTA, David J, POTTER, William Z
Format:	Artikel
Sprache:	eng
Schlagworte:	Adolescent Adult Biological and medical sciences Brain Mapping Causality Cyclohexanols - adverse effects Double-Blind Method Drug toxicity and drugs side effects treatment Electroencephalography - drug effects Female Humans Interview, Psychological Male Medical sciences Middle Aged Pharmacology. Drug treatments Placebo Effect Prefrontal Cortex - drug effects Prefrontal Cortex - physiology Reference Values Serotonin Uptake Inhibitors - adverse effects Toxicity: nervous system and muscle Venlafaxine Hydrochloride
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container_title	Neuropsychopharmacology (New York, N.Y.)
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creator	HUNTER, Aimee M LEUCHTER, Andrew F MORGAN, Melinda L COOK, Ian A ABRAMS, Michelle SIEGMAN, Barbara DEBROTA, David J POTTER, William Z
description	Adverse events reported in the context of medication administration may be due to pharmacodynamic and/or nonpharmacodynamic effects (eg, nocebo phenomena). Neurophysiological substrates of side effects may be examined in placebo-controlled antidepressant treatment trials. We explored the relationship between side effects and regional neurophysiologic changes in normal subjects receiving a 1-week placebo lead-in followed by 4 weeks randomized treatment with placebo (n = 15) or venlafaxine IR (n = 17). Quantitative electroencephalographic (QEEG) cordance measures were obtained before and during treatment, and side effects were assessed weekly using semistructured interviews. Side effect burden, characterized as the mean number of side effects per postrandomization visit, correlated significantly with neurophysiologic changes in the antidepressant group but not the placebo group. Medication group side effects were negatively correlated with changes in prefrontal cordance at end of placebo lead-in (r = -0.67, p < 0.003), at 2 weeks (r = -0.77, p < 0.002), and at 4 weeks (r = -0.77, p < 0.004) post randomization. After controlling for the prefrontal change at the end of placebo lead-in, postrandomization brain changes did not further explain side effect burden. Changes in prefrontal brain function associated with later antidepressant side effects were observed during placebo lead-in-prior to the administration of medication. Prefrontal brain function during brief placebo administration may help explain susceptibility to the development of antidepressant side effects. Results of these exploratory hypothesis-generating analyses should be considered tentative until replicated.
doi_str_mv	10.1038/sj.npp.1300652
format	Article
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After controlling for the prefrontal change at the end of placebo lead-in, postrandomization brain changes did not further explain side effect burden. Changes in prefrontal brain function associated with later antidepressant side effects were observed during placebo lead-in-prior to the administration of medication. Prefrontal brain function during brief placebo administration may help explain susceptibility to the development of antidepressant side effects. 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After controlling for the prefrontal change at the end of placebo lead-in, postrandomization brain changes did not further explain side effect burden. Changes in prefrontal brain function associated with later antidepressant side effects were observed during placebo lead-in-prior to the administration of medication. Prefrontal brain function during brief placebo administration may help explain susceptibility to the development of antidepressant side effects. 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Neurophysiological substrates of side effects may be examined in placebo-controlled antidepressant treatment trials. We explored the relationship between side effects and regional neurophysiologic changes in normal subjects receiving a 1-week placebo lead-in followed by 4 weeks randomized treatment with placebo (n = 15) or venlafaxine IR (n = 17). Quantitative electroencephalographic (QEEG) cordance measures were obtained before and during treatment, and side effects were assessed weekly using semistructured interviews. Side effect burden, characterized as the mean number of side effects per postrandomization visit, correlated significantly with neurophysiologic changes in the antidepressant group but not the placebo group. Medication group side effects were negatively correlated with changes in prefrontal cordance at end of placebo lead-in (r = -0.67, p < 0.003), at 2 weeks (r = -0.77, p < 0.002), and at 4 weeks (r = -0.77, p < 0.004) post randomization. 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subjects	Adolescent Adult Biological and medical sciences Brain Mapping Causality Cyclohexanols - adverse effects Double-Blind Method Drug toxicity and drugs side effects treatment Electroencephalography - drug effects Female Humans Interview, Psychological Male Medical sciences Middle Aged Pharmacology. Drug treatments Placebo Effect Prefrontal Cortex - drug effects Prefrontal Cortex - physiology Reference Values Serotonin Uptake Inhibitors - adverse effects Toxicity: nervous system and muscle Venlafaxine Hydrochloride
title	Neurophysiologic Correlates of Side Effects in Normal Subjects Randomized to Venlafaxine or Placebo
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