View clinical trials related to Major Depression.
Filter by:The investigators will investigate in a sham controlled design antidepressant effects and safety of DBS to the superolateral branch of the main medial forebrain bundle (slMFB).
Primary Objective: - To evaluate the efficacy of three fixed doses of SSR125543 (20 mg daily, 50 mg daily, and 100 mg daily) compared to placebo in outpatients with major depressive disorder, as assessed by the change from baseline (Day -1) to Day 56 in the 17-item Hamilton Depression Rating Scale (HAM-D) total score. Secondary Objectives: - To evaluate the tolerability and safety of SSR125543 in outpatients with major depressive disorder - To evaluate plasma concentrations of SSR125543
The overall purposes of this research are to determine if Cognitive Behavioral Therapy (CBT) has the same healing effect on the brain for people with depression as traditional antidepressants do, and in comparison to healthy controls with no history of depression, to find out more about the causes of depression including differences in the extent of problems caused by depression. We hypothesize that CBT will have the same healing effect on the brain as antidepressants; that differences in brain activations created by the various tasks and genetic differences will help us understand differences in the type and severity of symptoms among the depressed subjects.
Among antidepressant treatments, ECT stands as the most effective in treating acute depression. However, patient concerns with the cognitive side effects of ECT have encouraged the development of new and more focal forms of brain stimulation such as transcranial Direct Current Stimulation (tDCS). Our current study of tDCS as a treatment for depression suggests that this technique has antidepressant effects and is safe, painless and well tolerated. However, not all patients may respond to this treatment in the way that it is currently administered and the concern of possible relapse in some patients who respond to tDCS has raised interest in finding alternative, possibly more optimal ways of administering tDCS. This study will investigate whether using alternative electrode montages can improve the antidepressant effects of tDCS in people suffering from depression.
The purpose of this study is to find out what parts of the brain have increased or decreased connectivity when people are depressed and how Seroquel extended release (XR) changes this connectivity in depressed patients. The genetic samples collected are to look at variation in a gene (serotonin transporter gene), which affects the functioning of the chemical serotonin in the brain.
Major depressive disorder is a complex disease and most currently available antidepressants aiming at monoamine neurotransmission exhibit limited efficacy and cognitive effects. N-methyl-D-aspartate (NMDA), one subtype of glutamate receptors, plays an important role in learning and memory. N-methyl-D-aspartic acid (NMDA) enhancing agents, such as sarcosine (N-methylglycine), have been used as adjunctive therapy of schizophrenia. Sarcosine improved not only psychotic but also depressive symptoms in patients with schizophrenia. To confirm its antidepressant effect, the purpose of this study is to compare citalopram and sarcosine in efficacy for major depressive patients.
The purpose of this study is to see if escitalopram (Lexapro) improves symptoms of major depressive disorder in patients who have ALS or MS.
A pilot study to evaluate the ability of photobiomodulation to alter cerebral blood flow in the frontal poles and to affect the emotional status of patients with major depression.
In former studies of the investigators research group the investigators could also demonstrate acute inhibitory effects of the antidepressant mirtazapine on ACTH and cortisol release in normal controls (Schüle et al. 2002), most likely mediated via antagonism at central 5-HT2- and H1-receptors. In contrast to mirtazapine, serotonin or norepinephrine reuptake inhibiting antidepressants acutely stimulate ACTH and cortisol secretion (Schüle 2007). The investigators also performed a study in depressed patients who were treated either with mirtazapine or with reboxetine using serial dexamethasone/CRH tests (week 0, 1, and 5) as a parameter for HPA axis activity. Mirtazapine, but not the norepinephrine reuptake inhibitor reboxetine was able to significantly reduce HPA axis activity already within one week (Schüle et al. 2006). Mirtazapine is known to have an earlier onset of antidepressant action than do SSRIs such as sertraline (Behnke et al. 2003) or antidepressants with dual mechanism of action such as venlafaxine (Benkert et al. 2006), possibly due to its rapid inhibition of HPA axis activity in unipolar depressed patients. Since mirtazapine and quetiapine have similar effects on the HPA system in healthy male volunteers (i.e. inhibition of ACTH and cortisol secretion), a rapid attenuation of HPA axis activity is also expected during quetiapine XR treatment in depressed patients. Therefore, in the present study the investigators goal is to investigate whether quetiapine fumarate XR at a dosage of 300 mg per day has an impact on HPA axis activity in unipolar depressed patients, as measured by serial dexamethasone/CRH tests (week 0, 1, and 5) and salivary cortisol profiles and whether putative effects of quetiapine XR on the HPA system are related to its antidepressant efficacy.
The neuropeptide Pituitary Adenylate Cyclase Activating Polypeptide (PACAP) and its receptors PAC1 and VPAC2 are widely expressed in the nervous system. The investigators found that PACAP treatment of neuronal cell cultures increases expression of Brain Derived Neurotrophic Factor (BDNF) that plays an important role in the etiology of psychiatric disorders and action of antidepressants. For the first time, the investigators demonstrated that treatment by Paroxetine and Citalopram significantly decreases PAC1 and VPAC2 and upregulates PACAP mRNA expression, whereas Imipramine shows an opposite effect. Moreover, PACAP, PAC1 and VPAC2 expression is highly correlated with BDNF expression. Their in vivo studies show that Imipramine reduces BDNF and increases PAC1 mRNA expression in murine hippocampus, suggesting that antidepressants may affect neuronal plasticity through PACAP-BDNF interactions. Based on their observations in experimental systems, the investigators hypothesize that PACAP signaling system may be involved in the etiology of depression and mechanism of antidepressant action. The investigators will evaluate this hypothesis by examining serum PACAP levels, effect of antidepressants on PACAP levels, and gene polymorphisms of PACAP and its receptors in major depressive disorder patients. This study will enhance the investigators' understanding of PACAP's role in the etiology of depression and antidepressant treatment and will provide a basis to evaluate PACAP pathway as a potential target for diagnostics and novel antidepressants drug discovery.