View clinical trials related to Mood Disorders.
Filter by:This study is intended to help develop new MRI imaging techniques for studying mood and anxiety disorders. Researchers believe that depression and anxiety disorders may cause structural and functional changes in the brain. This study will optimize the way MRI scans are collected to look at brain structure and examine how the brain behaves while subjects perform particular tasks. Healthy normal subjects between 18 and 50 years of age who have never had a major psychiatric disorder and who have no first-degree relatives with mood disorders may be eligible for this study. Candidates are screened by phone with questions about their psychiatric and medical history, current emotional state and sleep pattern, and family history of psychiatric disorders. Candidates who pass the preliminary screening then undergo additional screening interviews and laboratory tests. Participants undergo magnetic resonance imaging (MRI) and neuropsychological testing, as follows: "<TAB>MRI scans: Subjects are asked to participate in an MRI study on one of several scanners to measure blood flow in the brain, concentrations of certain chemicals in the brain, or magnetic properties of the brain. MRI uses a strong magnet and radio waves to obtain pictures of the brain. The subject lies still on a narrow bed with a metal coil close to the head. For this study, subjects may be asked to wear a special coil on the neck to help measure blood flow. They may be asked to watch a screen presenting images or to do a task in which they respond to pictures or sounds and may be asked to return for additional scans. "<TAB>Neuropsychological testing: Subjects may undergo tests of cognitive performance. Often, people with mood disorders have subtle changes in performance on these tests that allow researchers to pinpoint where brain abnormalities occur. Before the tests can be used in patients, they must be validated by using healthy subjects. These tests are presented either orally, in written form, or on a computer.
The purpose of this research study is to evaluate and compare the effects of experimental treatments aimed at improving insomnia and nightmares in men and women military veterans between the ages of 18 and 60 years old, and who have a condition called Posttraumatic Stress Disorder. Insomnia refers to difficulty falling or staying asleep, although enough time is allowed for sleeping. Insomnia is also associated with daytime consequences, such as lack of energy, irritability, and difficulty concentrating. Nightmares are bad dreams that may or may not awaken the sleeper, and that cause discomfort during the daytime. Chronic Posttraumatic Stress Disorder (PTSD) refers to symptoms that occur after someone experienced or witnessed a life-threatening event, and that persist for three months or more after the event. Symptoms include flashbacks, nightmares, feelings of detachment from others, sleep disturbances, irritability, anxiety, and efforts to avoid people and places associated with the life-threatening event. These symptoms occur after a life-threatening event. Symptoms that persist for more than one month indicate the presence of PTSD. In the present study, we will study people with chronic PTSD, which refers to PTSD symptoms that persist for more than 3 months. Efficacy of a treatment is defined as the capacity to produce the desired effects. In this study, we will evaluate and compare the capacity of two active experimental treatments to reduce insomnia and nightmares associated with PTSD, and one inactive intervention, called a placebo, for people who continue to have sleep difficulties despite receiving treatment with an antidepressant medication called a selective serotonin reuptake inhibitor (SSRI, like Prozac, Paxil, Zoloft, Celexa). The two active experimental treatments are a medication, prazosin, and a brief behavioral intervention, which involves exercises and techniques to reduce nightmares and improve sleep quality. Prazosin is an approved medication by the Food and Drug Administration (FDA) against high blood pressure, but is not FDA-approved for posttraumatic insomnia and nightmares.
Medications like olanzapine have been associated with the development of weight gain and diabetes in some patients. It is not known if the increased risk of developing diabetes is a direct effect on insulin or simply related to weight gain. We hope to learn in this study whether or not olanzapine directly slows down insulin secretion from the pancreas, thereby increasing the risk of developing diabetes.
The purpose of this study is to compare ziprasidone (Geodon) monotherapy for the treatment of psychotic major depression (PMD)with an antidepressant/antipsychotic combined therapy.
This study will examine whether mitochondrial function is impaired in patients with bipolar disorder. Mitrochondria are small organelles inside the cell that are responsible for energy production. Recent studies in animals and humans suggest that abnormalities of mitrochondria may be involved in bipolar depression. The study will also examine whether the food supplement Coenzyme Q10 (CoQ10) improves mitochondrial function and symptoms such as depressed mood, low energy, anxiety or slowness in thinking and movements in bipolar patients. CoQ10 has been used to increase cell energy production and as an antioxidant. It has had some benefit in patients with Parkinson's disease and migraine and in prolonging survival in patients with cancer and heart failure. Patients 18-65 years of age with bipolar disorder who are currently in a depressive episode of at least 4 weeks duration may be eligible for this study. The study has four phases, as follows: Phase I: Medication Withdrawal Patients taper off all psychotropic medications, usually over 1 to 2 weeks. Phase II: Baseline Evaluation After being off all medication for about 2 weeks, patients undergo the following procedures: - Magnetic resonance imaging (MRI) and magnetic resonance spectroscopy (MRS). The two procedures are performed in an MRI scanner. Both tests use a strong magnetic field and radio waves to obtain images that provide information on brain anatomy and chemistry. - Blood tests to assess mitochondrial function isolated from blood cells. - Skin biopsy for tests of mitochondria. A small sample of skin tissue 5 x 5 millimeters is surgically removed. Phase III: Administration of CoQ10 or Placebo Participants are randomly assigned to take either CoQ10 or placebo (an inactive look-alike substance) twice a day by mouth. While taking the study medication, patients have the following procedures periodically: - Rating scales for anxiety and depression and adverse events. - Check of vital signs. - Blood and urine sample collections. Phase IV: Study Completion At the end of the 8 weeks of treatment, patients have a physical examination and electrocardiogram, and the procedures in phase II are repeated. Participants may then receive short-term treatment (up to 12 weeks) with medications for bipolar depression, followed by referred to a community physician for long-term treatment.
The goal of this protocol, broadly stated, is to use targeted manipulations with intranasally administered oxytocin (OT) and arginine vasopressin (AVP) in conjunction with neurocognitive and neuroimaging paradigms to evaluate claims that OT and AVP inhibit and facilitate, respectively, the effective processing of aversive signals. Moreover, we wish to examine whether increased vasopressin levels will increase, and increased oxytocin levels decrease, the neural response in the amygdala and other limbic structures to aversive stimuli. In addition, we wish to assess whether OT and AVP administration will lead to the facilitation of conspecific recognition as appears to be the case for other mammalian species....
Weight gain is a serious, common side effect of many antipsychotic medications. On average, the highest amounts of weight gain are found to occur in people taking clozaril and olanzapine, but with significant weight gain occuring in those on the other atypical antipsychotics as well. We, the researchers at the University of North Carolina, propose an open-label observational, pilot study of the changes in weight, BMI, body composition, and lipids, glucose, insulin and other metabolic parameters occurring in subjects as they switch from treatment with olanzapine, risperidone or quetiapine to aripiprazole. This medication switch will be determined prior to their entering this study by their treating psychiatrist. We also will determine resting energy expenditure (REE) and respiratory quotient (RQ) as measured by metabolic cart to determine if either energy expenditure or the propensity to store energy as fat may be involved in any changes to weight that are detected. Food intake, hunger, and physical activity will also be assessed.
The purpose of this study is to evaluate the effectiveness and safety of flexible-doses paliperidone ER (3 to 12 mg as needed) compared with placebo over 3 weeks in patients with Bipolar I Disorder who are experiencing an acute manic or mixed episode. This study will also evaluate the effects of paliperidone ER on global functioning, and will compare the effectiveness of flexible doses of paliperidone ER to that of quetiapine over 12 weeks.
The purpose of this study is to evaluate the effectiveness and safety of 3 different doses of paliperidone extended release (ER) compared to placebo in patients diagnosed with Bipolar I Disorder who are experiencing an acute manic or mixed episode. This study will also evaluate the effects of paliperidone extended release on global functioning, and the relationship between blood levels and the effectiveness and safety of paliperidone.
The main purpose of this study is to determine if the multifaceted treatment for substance abuse in dual disordered patients is more effective in reducing drug use than a supportive control treatment. The researchers will also determine if adding a case management component (Critical Time Intervention; CTI) to the intervention will increase treatment engagement and retention.