View clinical trials related to Disease.
Filter by:The aim of the present study, is to evaluate the effect of a supported employment intervention, IPS-modified for people with mood and anxiety (IPS-MA) on employment or education, when offered to people with onset mood or anxiety disorders who are not likely to be able to return to work within three month. The hypothesis is that the IPS-MA method is associated with a shorter recovery period and more people returning to work or education, compared to treatment as usual.
The purpose of this study is to assess the efficacy of oral glycine as an augmentation strategy in two psychotic patients with a triplication (4 copies) of the gene glycine decarboxylase (GLDC). Subjects will first undergo a double-blind placebo-controlled clinical trial in which one 6-week arm will involve glycine (maximum daily dose of 0.8 g/kg, administered on a TID dosing schedule) and one 6-week arm will involve placebo. A 2-week period of no treatment will occur between treatment arms. A 6-week period of open-label glycine (maximum daily dose of 0.8 g/kg, administered on a TID dosing schedule) will follow the double-blind placebo-controlled clinical trial. Prior to the double-blind placebo-controlled clinical trial and at the end of the open-label glycine trial, the following procedures will be carried out: structural MRI (3T), Proton 1H MRS (4T), fMRI (3T), steady-state visual evoked potentials, and EEG. Positive, negative, and affective symptoms and neurocognitive function as well as plasma levels of large neutral and large and small neutral and excitatory amino acids and psychotropic drug levels will be assessed periodically. In addition, 1H MRS (4T) for 2 hours after a single oral dose of a glycine-containing drink will be assessed at baseline. Pharmaceutical grade glycine powder (Ajinomoto) or placebo will be dissolved in 20% solution and prepared by the McLean Hospital Pharmacy. Because the results of the double-blind placebo-controlled and open-label glycine treatment arms showed substantial clinical benefit to the participants, the study has been extended to include six months of chronic open-label glycine in order to determine 1) whether the clinical benefits achieved within 6 weeks previously recur, 2) the clinical benefits are lasting, and 3) additional clinical benefits occur with longer exposure. The glycine for this extension will be provided by Letco Medical. The investigators hypothesize that mutation carriers will have reduced endogenous brain glycine and GABA levels and increased brain glutamate and glutamine levels. Glycine administration will increase brain glycine in the two carriers, but to a lesser extent than in non-carrier family members and controls. The investigators hypothesize reduced activation of magnocellular pathways and abnormal ERPs modulated by NMDA in mutation carriers compared with non-carrier family members and controls. The investigators hypothesize that glycine, but not placebo, will improve positive, negative and affective symptoms as well as neurocognitive function. The investigators also hypothesize that open-label glycine will improve clinical and cognitive functioning, will partially normalize decreased baseline glycine and GABA and increased glutamate and glutamine, and will partially normalize magnocellular pathway activation and abnormal evoked potentials.
The goal of this project is to examine the neurophysiology of hypersomnia during sleep and wakefulness, to identify biomarkers for excessive sleepiness in neuropsychiatric disorders, and pilot acoustical slow wave induction during sleep in patients with hypersomnolence, to determine if this decreases daytime sleepiness in these patients. The primary study hypotheses are that individuals with hypersomnolence will have reduced slow wave activity (SWA) during sleep and increased waking theta/alpha activity during wake in specific brain regions. A secondary hypothesis is that acoustical slow wave induction in hypersomnolent patients will increase SWA during sleep, reduce theta/alpha activity during wake, and improve subjective sleepiness.
The purpose of this study is to learn if measures of brain activity are different in children and adolescents with depression who are in different stages of treatment. This is important because it may identify a biological marker for depression that could one day be used to identify depressed children who would benefit from certain treatments (medications for example), or to monitor how well treatments are working. Brain activity measures(known as cortical excitability and inhibition) will be collected by Transcranial Magnetic Stimulation (TMS). TMS is a noninvasive (no surgery or implants) brain stimulation technology which can make parts of the brain work without putting any wires or chemicals into the body. Measurements will take place over one 3-hour visit. This study does not provide any form of treatment. *There is an optional portion of the study that uses a brain scan to gather measures of brain structure and brain chemicals. The brain scan is called magnetic resonance and spectroscopy (MRI/MRS). MRI/MRS uses magnetic fields to study the structure of the brain and brain chemicals. The PI will determine eligibility for the MRI/MRS portion of the study.
Chronic post-coma consciousness impairment is a severe handicap. Preliminary studies suggest that deep brain stimulation of the thalamic-tegmental reticular system could improve consciousness disorders, and facilitate the emergence of conscious behavior. The aim of this protocol is to study the effects of deep brain stimulation on conscious behavior, using a patient-based anatomic mapping for stereotactic surgery, and the Coma Recovery Scale-Revised (CRS-R) as clinical assessment criterion.
The objective of this study is to evaluate the efficacy, safety and tolerability of cariprazine as an adjunctive treatment to antidepressant therapy (ADT) in patients with MDD
Major depression is a highly prevalent, chronic, and debilitating mental health problem with significant social cost that poses a tremendous economic burden. Winter seasonal affective disorder (SAD) is a subtype of recurrent major depression involving substantial depressive symptoms that adversely affect the family and workplace for about 5 months of each year during most years, beginning in young adulthood. This clinical trial is relevant to this public health challenge in seeking to develop and test a time-limited (i.e., acute treatment completed in a discrete period vs. daily treatment every fall/winter indefinitely), palatable cognitive-behavioral treatment with effects that endure beyond the cessation of acute treatment to prevent the annual recurrence of depression in SAD. Aim (1) To compare the long-term efficacy of cognitive-behavioral therapy (CBT) and light therapy on depression recurrence status, symptom severity, and remission status during the next winter season (i.e., the next wholly new winter season after the initial winter of treatment completion), which we argue to be the most important time point for evaluating clinical outcomes following SAD intervention. Hypothesis: CBT will be associated with a smaller proportion of depression recurrences, less severe symptoms, and a higher proportion of remissions than light therapy in the next winter. The study is designed to detect a clinically important difference between CBT and light therapy in depressive episode recurrences during the next winter, the primary endpoint, in an intent-to-treat analysis. Aim (2) To compare the efficacy of CBT and light therapy on symptom severity and remission status at post-treatment (treatment endpoint). Hypothesis: CBT and light therapy will not differ significantly on post-treatment outcomes.
The purpose of this study is to determine whether Vilazodone is effective in the treatment of symptoms of Social Anxiety Disorder among adults.
The current study will test the causal relationship between elevated levels of cortisol and the serotonin transporter gene (5-HTTLPR) as these factors influence sensitivity to environmental threat. The investigators predict that carriers of the short allele of the serotonin transporter gene who have elevated cortisol levels will be most sensitive to threatening environments, whereas carriers of the long allele who do not have elevated cortisol (placebo subjects) will be least sensitive.
Despite numerous studies of meal components in humans, little is still known about how different meals influence on metabolism. The purpose of this study is to a gain knowledge of how a balanced test meal with either lean seafood (example:cod) or meat as the main protein source will: 1. affect the postprandial metabolism acutely (test-meal at beginning of the study) 2. affect the postprandial metabolism after 4 weeks controlled intervention (test meal at end of intervention period) 3. affect gut microbiota composition