Study of the Effects of an Antidepressant Medication and Placebo on the Brain Functioning of Normal Subjects

Overview

This study examines the effects of an antidepressant medication and placebo on the brain functioning of normal subjects. In this study, recordings of brain electrical activity are being used to detect and monitor the response to treatment with venlafaxine IR (Effexor), a drug used for the treatment of depression. The intent of this study is to test specific hypotheses regarding: 1. long-term brain effects of a single course of antidepressant treatment 2. pharmaco-conditioning effects underlying antidepressant tolerance/sensitization 3. brain functional response to initial versus subsequent antidepressant trials in normal healthy subjects.

Full Title of Study: “Physiologic Monitoring of Antidepressant Medication Effects in Normal Healthy Subjects II”

Study Type

  • Study Type: Interventional
  • Study Design
    • Allocation: Randomized
    • Intervention Model: Parallel Assignment
    • Primary Purpose: Other
    • Masking: Triple (Participant, Care Provider, Outcomes Assessor)
  • Study Primary Completion Date: February 2009

Detailed Description

Major Depressive Disorder (MDD) is a lifelong and recurrent illness, such that many individuals require multiple courses of antidepressant medication treatment. While some patients respond completely to each course of treatment, many do not, and with each unsuccessful antidepressant trial the likelihood that a patient will respond decreases. This raises the possibility that neurophysiologic response in subsequent antidepressant treatment may be influenced by learning processes including sensitization, habituation, and/or classical conditioning. Classical conditioning would entail the association of cues such as pill-taking (conditioned stimuli; CS) with the effects of active medication (unconditioned stimulus; US), such that later presentation of the CS alone would come to elicit a conditioned response (CR). Such effects could be revealed by blinded administration of placebo following a period of treatment with active medication. Habituation effects (tolerance), or sensitization effects (increased response), which require only repeated exposure to a stimulus, might be evidenced after repeated courses of antidepressant treatment. Knowledge of how learning processes impact neurophysiologic response to successive courses of antidepressant treatment would have relevance for clinical populations. Specific hypotheses, however, may be tested in healthy non-clinical samples to avoid potential confounding factors related to severity or chronicity of illness. Learning theories would suggest two hypotheses: (1) neurophysiologic response to placebo will differ between subjects who were previously treated with antidepressant treatment as compared to placebo (classical conditioning hypothesis); and (2) neurophysiologic response to an initial course of antidepressant treatment will differ from response to a repeated course of antidepressant treatment.

Interventions

  • Drug: venlafaxine
    • venlafaxine IR 150mg

Arms, Groups and Cohorts

  • Experimental: antidepressant-experienced
    • Subjects who had previously been exposed to active antidepressant medication (venlafaxine)
  • Placebo Comparator: antidepressant-naive
    • Subjects who had previously been exposed to placebo only (and never to active antidepressant medication)

Clinical Trial Outcome Measures

Primary Measures

  • Changes in Quantitative Electroencephalogram (qEEG) Prefrontal Cordance (PFC) Over Time (4 Weeks).
    • Time Frame: Average over 4 weeks
    • Cordance values were calculated from conventional ‘absolute’ and ‘relative’ qEEG power measures using a three-step procedure. First, EEG power values were computed using a re-attributional electrode montage. Second, the absolute and relative power values were z-transformed to measure deviation from the mean values for each electrode site s in each frequency band f for that recording, yielding Anorm(s,f) and Rnorm(s,f), respectively. Third, these z-scores were summed to yield a cordance “intensity” value, Z, for each electrode in each frequency band where Z(s,f) = Anorm(s,f) + Rnorm(s,f). Analyses for this report focused on changes-from-baseline theta-band (8-12Hz) cordance in the prefrontal region (electrodes Fp1, Fpz, Fp2). Results are defined in terms of positive and negative change where a positive change represents an increased physiologic and behavioral response to the drug (sensitization) and a negative change represents an increased tolerance to the drug (habituation).
  • Changes in Quantitative Electroencephalogram (qEEG) Prefrontal Cordance (PFC) Over 1 Week Placebo lead-in.
    • Time Frame: 1-week placebo lead-in
    • Cordance values were calculated from conventional ‘absolute’ and ‘relative’ qEEG power measures using a three-step procedure. First, EEG power values were computed using a re-attributional electrode montage. Second, the absolute and relative power values were z-transformed to measure deviation from the mean values for each electrode site s in each frequency band f for that recording, yielding Anorm(s,f) and Rnorm(s,f), respectively. Third, these z-scores were summed to yield a cordance “intensity” value, Z, for each electrode in each frequency band where Z(s,f) = Anorm(s,f) + Rnorm(s,f). Analyses for this report focused on changes-from-baseline theta-band (8-12Hz) cordance in the prefrontal region (electrodes Fp1, Fpz, Fp2). Results are defined in terms of positive and negative change where a positive change represents an increased physiologic and behavioral response to the drug (sensitization) and a negative change represents an increased tolerance to the drug (habituation).

Participating in This Clinical Trial

Inclusion Criteria

  • Subject age is 18-75 years – Subject must be in overall good health (i.e., free of any medical condition known to affect brain function). – Subject must have participated in former study, Physiologic Monitoring of Antidepressant Medication Effects in Normal Controls Subjects (IRB#: 00-11-038-13) – Subject has had a normal physical exam within one year prior to entry of the study – Capacity to give Informed Consent Exclusion Criteria:

  • Subject has serious medical illness, such as high blood pressure, heart disease, renal impairment, or cirrhosis of the liver. – Subject meets DSM-IV Axis I criteria for a mood, anxiety, cognitive, or psychiatric disorder; or meets criteria for cluster A or B axis II diagnoses. These disorders will be determined on the basis of a structured assessment with the MINI (Mini International Neuropsychiatric Interview for DSM-IV Axis I Disorders) – Subject has a history of current or past active suicidal ideation or suicide attempts. – Subject has received treatment with an antidepressant medication or any medications that could influence brain function since his/her participation in the initial study – Subject is using any of the following medications which interfere with EEG measures of brain function: Anticholinergics, Barbiturates, Benzodiazepines, Sedating Antihistamines (e.g. diphenhydramine (Benadryl) would be exclusionary, but not loratadine (Claritin)) – Subject has a history of seizures, brain surgery, skull fracture, significant head trauma, or previous abnormal EEG – Subject is pregnant or planning on becoming pregnancy during course of the study – Subject is a UCLA student or staff member directly under instruction or employment of any of the investigators

Gender Eligibility: All

Minimum Age: 18 Years

Maximum Age: 75 Years

Are Healthy Volunteers Accepted: Accepts Healthy Volunteers

Investigator Details

  • Lead Sponsor
    • University of California, Los Angeles
  • Provider of Information About this Clinical Study
    • Principal Investigator: Andrew F. Leuchter, Principal Investigator – University of California, Los Angeles
  • Overall Official(s)
    • Andrew Leuchter, MD, Principal Investigator, University of California, Los Angeles

Citations Reporting on Results

Hunter AM, Cook IA, Abrams M, Leuchter AF. Neurophysiologic effects of repeated exposure to antidepressant medication: are brain functional changes during antidepressant administration influenced by learning processes? Med Hypotheses. 2013 Dec;81(6):1004-11. doi: 10.1016/j.mehy.2013.09.016. Epub 2013 Sep 17.

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