View clinical trials related to Major Depressive Disorder.
Filter by:Complex Dynamic Systems in Mood Disorders is an observational, exploratory study of the relationship between voice samples, heart rate, respiration, movement, galvanic skin conductance, and sleep architecture with mood states in patients with Major Depressive Disorder, Bipolar Disorder, and healthy controls. The overall hypothesis is that nonlinear dynamic analyses will be able to reveal hidden patterns of complexity in each domain of voice, heart rate variability, movement, arousal, and sleep stage data.
Ketamine infusion has been shown to have rapid antidepressant properties, however the possible use of ketamine in treatment-resistant depression as augmentation has not been investigated. The overall aim of this study is to assess the feasibility, safety and tolerability, efficacy and duration of the effect of intravenous N-methyl-D-aspartate antagonist ketamine as augmentation of antidepressants for chronic suicidal ideation in subjects with severe treatment-resistant depression (TRD). This is an open-label study (pilot).
The purpose of this study is to evaluate the efficacy and overall safety and tolerability of treatment with adjunctive JNJ-40411813 compared to placebo in patients with MDD with anxiety symptoms being treated with an antidepressant.
The purpose of this study is to evaluate a computer-guided, telephone-based therapy for adolescent depression, delivered in a pediatric primary setting in the community.
Safety and Efficacy of Vilazodone in Major Depressive Disorder
This study will be conducted with the aim of investigating the efficacy, safety and tolerability of 10 mg/day Vortioxetine in Asian patients compared to an approved active comparator (venlafaxine extended release 150 mg/day).
There is strong evidence that patients with major depressive disorder (MDD) have an increased risk of developing coronary heart disease (CHD). This elevated risk is independent of standard risk factors such as smoking, obesity, high cholesterol, diabetes, and high blood pressure. The relative risk of developing CHD is proportional to the severity of depression (the more severe the depression, the more likely the development of CHD). The sympathetic nervous system (the part of your nervous system that makes your heart beat harder and faster) is responsible for our "flight and fight" response to a threatening situation. It has been determined that increased sympathetic nervous system activation occurs in approximately one in three untreated patients with MDD (with no underlying CHD). There is growing evidence linking elevated sympathetic activity to early stages of kidney dysfunction and an increased incidence of cardiovascular (heart and blood vessel) disease development (eg, heart attacks). Sympathetic nervous system activation over a prolonged period of time may also be associated with abnormal blood pressure regulation and the development of insulin resistance (an important feature of type 2 diabetes). It has been suggested that a certain gene, known as the serotonin transporter (5-HTT) gene, may be involved. In particular, work from our group indicates that a particular type of this gene, the short form (or "short" allele) may be important in linking MDD, sympathetic nervous activation, and increased cardiac risk. This study aims to examine the role of the 5-HTT gene on cardiovascular risk factors associated with elevated sympathetic activity in patients with MDD. Additionally, the study will examine the effect of serotonin re-uptake inhibitor (SSRI) therapy on these parameters. A clearer understanding of these systems and processes will allow for identification of patients with increased cardiac risk and development of risk reduction strategies. Such information is clinically significant given the link between cardiovascular disease and MDD. Hypothesis 1: That MDD patients carrying the s allele of the 5-HTT transporter have higher sympathetic activity than homozygous ll patients. Hypothesis 2: that MDD patients with elevated sympathetic activity display early signs of left ventricular hypertrophy (LVH) and diastolic dysfunction. Hypothesis 3: That MDD patients with high sympathetic activity have greater morning surges in blood pressure than patients with normal sympathetic activity. Hypothesis 4: That MDD patients with elevated sympathetic activity display early signs of insulin resistance. Hypothesis 5: That SSRI therapy, in particular in those who carry the s allele of the 5-HTT, has a favourable effect on blood pressure variability and morning surge in blood pressure, sympathetic stress reactivity, and markers of insulin resistance.
Depressed patients will be offered experimental treatment with a new, potentially fast-acting antidepressant called ketamine while being scanned by magnetic resonance imaging (MRI) to measure the chemical effect of the drug. Ketamine will be given in a dose of 0.0 (placebo), 0.1, 0.2, 0.3, 0.4, or 0.5 mg/kg. If a patient does not respond to ketamine after the first infusion, it may be because s/he received ketamine placebo or the dose of ketamine was too low. In that case, an optional second scan and infusion of active ketamine (0.5 mg/kg) will be offered. This second scan will occur no later than weeks after the first scan/infusion (as scheduling permits). There is no guarantee that the patient will respond to the second ketamine infusion. Patients enrolled in the study are eligible for up to 6 months treatment with their study psychiatrist after the ketamine infusion(s). Healthy Volunteers: Healthy controls will receive an infusion of ketamine at a single dose (0.5 mg/kg). Volunteers will only receive one MRI scan and infusion.
The objective of this study is to evaluate the effectiveness of ketamine (infusion of 0.5mg/kg) and venlafaxine compared to the use of venlafaxine alone in the treatment of major depression (MADRS score ≥ 20 ) to six weeks of treatment.
The Institute of Medicine identifies Prolonged Grief (PG) as a critical under-addressed public health problem for which are no empirically supported treatments. The purpose of this application is to pilot-test Behavioral Activation (BA) therapy for PG. BA is a well supported, stand alone intervention for depression and recently applied to posttraumatic stress disorder, which reduces rumination and avoidance behaviors that otherwise thwart access to natural rewarding contingencies and resources. The treatment focuses on promoting stable, active routines, self-care behaviors, enhanced self-efficacy, and reengagement with pleasurable activities and significant social resources. Rumination, disengagement, and low self-efficacy are defining features of PG. Further, in response to loss of intimates, the key factors that differentiate resilient people from those that have difficulties adapting is the maintenance or fast resumption of social and occupational functioning. Thus, the main hypothesis of this study is that BA for PG will result in clinically significant reductions in rumination and functional disengagement. This is a preliminary small-scale pilot assessment of potential efficacy and feasibility of completing a large scale study of BA for PG.