Neuroactive steroids after estrogen exposure in depressed postmenopausal women treated with sertraline and asymptomatic postmenopausal women.

Neuroactive steroids (NAS) allopregnanolone (ALLO), Allotetrahydrodeoxycorticosterone (THDOC) and dehydroepiandrosterone (DHEA) are important in the regulation of mood and behavior. Knowledge about these steroids in postmenopausal depression and the effect of estrogen on NAS is lacking. We elected to determine if there were differences in NAS between postmenopausal depressed women and age matched controls.

Changes in brain function during administration of venlafaxine or placebo to normal subjects.

Previous research has demonstrated neurophysiologic effects of antidepressants in depressed subjects. We evaluated neurophysiologic effects of venlafaxine in normal subjects. Healthy adults (n=32) received a 1-week placebo lead-in followed by 4 weeks randomized double-blind treatment with venlafaxine IR 150 mg.

Changes in brain function (quantitative EEG cordance) during placebo lead-in and treatment outcomes in clinical trials for major depression.

Objective: Decreases in prefrontal electroencephalogram (EEG) cordance that are detectable as early as 48 hours after the start of medication have been related to clinical outcome in treatment trials for major depressive disorder. The relationship between brain changes during the placebo lead-in phase and medication treatment outcome is unknown. The authors hypothesized that decreases in prefrontal cordance during the placebo lead-in phase would be associated with better clinical outcome in subjects treated with antidepressants.

Neurophysiologic changes during estrogen augmentation in perimenopausal depression.

Background: Estrogen augmentation of antidepressant medication has been an effective treatment in a subgroup of women experiencing affective symptoms during perimenopause. It has been suggested that estrogen facilitates serotonergic transmission in brain regions involved in mood disorders. We investigated differences in physiologic brain changes with estrogen augmentation in women with perimenopausal depression who reached remission compared to those who did not reach remission.

Changes in prefrontal activity characterize clinical response in SSRI nonresponders: a pilot study.

Previous studies in unipolar depression have shown that early decreases in prefrontal values of the QEEG cordance measure identified responders to pharmacotherapy. These studies have all examined individuals who were drug-free prior to the first physiologic assessment, yet in the clinical management of treatment resistant depression (TRD), many patients undergo changes in treatment without a drug-free interval between treatments. Here, we investigated whether cordance decreases were associated with response in Stage I TRD subjects without wash-out between treatment trials.

Influence of age, gender, health status, and depression on quantitative EEG.

Quantitative electroencephalography (QEEG) has shown increasing utility in assessing brain function in clinical research studies of depression. QEEG findings may be influenced by a variety of factors other than the presence of depression, including age, gender, depression severity, and physical health status. Many of these factors have not been systematically evaluated.

Estrogen augmentation of antidepressants in perimenopausal depression: a pilot study.

Objective: To investigate the effects of estrogen augmentation on mood and memory in women with perimenopausal depression who had experienced a partial response to antidepressant medications.

Method: In a double-blind, placebo-controlled trial, 17 subjects taking antidepressant medication were randomly assigned to either 0.625 mg/day of conjugated estrogen (N = 11) or matching placebo (N = 6) for 6 weeks.

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 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).

Longitudinal progression of subclinical structural brain disease in normal aging.

Objective: The authors describe four types of brain structural change in "normal aging:" cortical atrophy, central atrophy, deep white-matter hyperintensities (DWMH), and periventricular hyperintensities (PVH). Cross-sectional investigations have reported that greater volumes of these forms of "subclinical structural brain disease" (SSBD) were found with increasing age. Greater volumes were also associated with poorer cognition, even though subjects performed within the normal range.

Cognitive and physiologic correlates of subclinical structural brain disease in elderly healthy control subjects.

Context: Healthy elderly persons commonly show 4 types of change in brain structure-cortical atrophy, central atrophy, deep white-matter hyperintensities, and periventricular hyperintensities-as forms of subclinical structural brain disease (SSBD).

Objectives: To characterize the volumes of SSBD present with aging and to determine the associations of SSBD, physiology, and cognitive function.

Design: Cross-sectional study.

Estrogen replacement therapy is associated with less progression of subclinical structural brain disease in normal elderly women: a pilot study.

Background: Cortical atrophy, central atrophy, deep white-matter hyperintensities, and periventricular hyperintensities are reported in normal aging.

Objectives: We examined the effects of estrogen replacement therapy (ERT) on these forms of 'subclinical structural brain disease' (SSBD) in normal, postmenopausal women in a pilot, naturalistic, longitudinal study of 15 subjects.

Methods: Two assessments were performed at least two years apart, with volumetric magnetic resonance imaging (MRI) and neuropsychological testing.