9 Clinical Trials for Various Conditions
The purpose of this pilot study is to evaluate the potential effects of whole coffee fruit concentrate (WCFC, Neurofactor), a product that elevates circulating brain-derived neurotrophic factor (BDNF), on cognition and mood in healthy adults. The projected outcome of this study is that self-administration of Neurofactor for 28 days (or even 14 days) will be associated with an improvement in mood and scores on cognitive tests, and that the change will exceed that observed with administration of Nutrim (placebo). Volunteers will be recruited from the greater Los Angeles community. Participants will be middle-aged nonsmokers, in good health, and between the ages of 40-55 to enhance the chance of demonstrating pro-cognitive effects. Younger participants, whose cognitive performance is expected to be higher, may perform at a ceiling level, with less room for improvement by the product under study. Participants who call our lab will be told about the study in more detail, and will complete a 5 minute phone screener to determine preliminary eligibility. After the initial telephone screening, participants will visit Dr. London's laboratory at UCLA to provide written informed consent. The first study visit will be an in-person screening visit to determine full eligibility. The evaluation will include a psychiatric diagnostic interview, using the SCID, blood tests, urine samples (to test for drug use and pregnancy). Participants will also be interviewed about their prior and current drug use, including tobacco use. In addition, participants will be interviewed about the nature of their employment and physical exercise habits: endurance training has been shown to increase plasma BDNF in young men. Participants meeting the inclusion criteria will attend the Semel Institute for Neuroscience and Human Behavior at UCLA to take part in baseline measurements, and to be randomized to receive either WCFC or placebo. During the active treatment time (28 days), they will visit the UCLA Semel Institute on a weekly basis. At each of these weekly visits, questionnaires regarding compliance will be completed, and blood samples will be taken for assay of BDNF. A cognitive test battery and mood-rating scales will be completed at baseline and at 14 and 28 days of treatment. At the midpoint assessment (14 days) and at completion of treatment (28 days) blood will be drawn for assay of a blood chemistry panel (as at baseline) as well as for biomarkers in addition to BDNF.
This multi-center, randomized controlled feasibility trial will assess a 20-week home-based exercise intervention in youth with Multiple Sclerosis (MS). The goal is to determine the feasibility of conducting a larger, definitive trial on exercise training as a non-pharmacological approach to improve disease outcomes in this population. Participants will be randomized to either an Exercise Training group or a Mobility and Flexibility Training group. The investigators will evaluate differences between the two groups in physical activity levels, mediators of physical activity, and psychosocial outcomes. Assessments, including clinical exams, brain MRI, eye tracking, cognitive testing, blood draws, and questionnaires, will occur at baseline and after 20 weeks. Accelerometry will be done at baseline, 10 weeks, and 20 weeks to track physical activity. The primary objectives are to assess the feasibility of recruiting, retaining, and randomizing youth with MS and to evaluate adherence to the exercise intervention and coaching sessions. Exploratory objectives include examining changes in depressive symptoms, cognitive function, blood biomarkers (BDNF and irisin), brain volume, and fitness levels in response to the intervention. Approximately 40 participants will be enrolled from four sites in Canada and the United States. Primary outcomes include feasibility, acceptability, and fidelity measures. Exploratory outcomes include blood biomarkers, brain MRI, cognitive testing, and other neuropsychological measures.
This study is aimed at evaluating whether the computer-based cognitive exercises in the Thinking Skills for Work (TSW) program are critical to improving work and cognitive outcomes in consumers with serious mental illness and cognitive impairment enrolled in supported employment (SE), or whether a streamlined version of TSW without this component (the Cognitive Skills for Work (CSW) program) is equally effective for some or all consumers. An RCT will be conducted at two sites (Mental Health Center of Greater Manchester in New Hampshire and Thresholds Inc. in Illinois) with 244 consumers randomly assigned to one of two groups (122 each, with approximately 122 participants having schizophrenia or schizoaffective disorder and 122 of the participants having other diagnoses): 1) TSW, or 2) CSW. The TSW and CSW programs will be delivered by the same Cognitive Specialists, who will work as members of the SE team to integrate cognitive and vocational services. All participants will continue to receive SE services. Participants will be assessed at baseline, post-treatment at 8 months (after completion of the active teaching components of TSW or CSW), and at 16 and 24 months post-baseline to evaluate cognitive functioning, symptoms, and quality of life. All work outcomes will be tracked weekly. In addition, a supplementary study, commencing in September 2015, will assess a promising biomarker for understanding the mechanisms underlying the effects of cognitive remediation, brain-derived neurotrophic factor (BDNF), in new enrollees in the parent R01 study. This supplement will complement the aims of the parent R01 by shedding light on possible mechanisms related to how TSW works and for whom, thereby informing efforts to refine and improve the program, as well as targeting individuals who fail to benefit. The supplement will take place at the same sites as the parent R01.
The purpose of the study is to determine the efficacy of aerobic exercise for improving cognition, mood, and fatigue after Traumatic Brain Injury (TBI) as well as examine the role of Brain Derived Neurotropic Factor (BDNF) and peripheral Vascular Endothelial Growth Factor (VEGF) as mediators of response to exercise.
This is a pilot study to determine whether a lifestyle medicine intervention following stroke may increase levels of Brain-Derived Neurotrophic Factor (BDNF).
The purpose of the study is to assess the status of brain-derived neurotrophic factor brain (BDNF) and how the brain behaves in response to skill acquisition. Specifically we will investigate the relationship of the status of BDNF with cortical excitability changes and learning that occur during a motor training paradigm. We aim to 1) determine cortical excitability changes by using transcranial magnetic stimulation (TMS) before and after training; 2) to determine finger tracking accuracy before and after training; and 3) determine the presence of BDNF polymorphism in each participant. We are testing healthy adults in this study, and eventually would like to apply to persons who have neurologic disorders such as stroke or dystonia. By applying a magnetic field to the outside of the head, electrical currents are produced within the brain that can stimulate brain tissue. Using TMS, the brain can be studied to gain a greater understanding of the mechanisms associated with cortical excitability in healthy and patient populations. There is limited knowledge of what influence genetic biomarkers such as BDNF have on cortical excitability changes within the cortex following learning. Studies have indicated that people without this certain gene are less likely to show changes in brain excitability during TMS and during motor learning than people with this gene
The purpose of this study is to evaluate the correlation between varying levels of neuropeptides and birth outcomes. Neuropeptides are substances (proteins) produced in the body in very small amounts but without which the nervous system cannot function properly, and which might have a role in the health of a newborn. As part of this study, we are collecting blood samples from pregnant women. Neuropeptides and hormones can be measured in blood. This study will involve three blood draws from the participants arm. Demographic information will also be requested, and participants will be asked to complete questionnaires about their mood and personal experiences at each visit. Our hypothesis is that participants with lower levels of brain-derived neurotrophic factor (BDNF) will be at increased risk for poor birth outcomes.
This study will examine whether lithium carbonate, given alone or with divalproex, increases the amount of brain-derived neurotrophic factor (BDNF) in the spinal fluid of patients with Huntington's disease (HD), a hereditary disorder of the central nervous system. Patients with this fatal degenerative disease have lower amounts of substances in the brain and spinal fluid called trophic or growth factors. One of these factors is BDNF. A possible treatment for HD may be to increase the levels of BDNF. Lithium carbonate, a drug used to treat bipolar disorder, and divalproex, a drug used to treat mood disorders and seizure disorders, have both been shown to increase the amount of BDNF protein in laboratory studies. Patients 18 to 70 years old with a DNA-confirmed diagnosis of Huntington's disease may be eligible for this study. Candidates are screened with a medical history and physical examination, neurological evaluation, blood and urine tests, and electrocardiogram (EKG). Participants take lithium carbonate with and without divalproex. They also receive placebo (an inactive substance) for portions of the study. On the first day of the study, patients are given a supply of pills with instructions on how to take them. Blood pressure and pulse are measured, and blood and urine tests may be done. Patients are evaluated with standardized tests and scales for assessment of various aspects of HD. Patients return to the clinic once a week for follow-up evaluations, including blood and urine tests, physical examinations, disease assessments, and a review of medication side effects. Each week, they receive a new supply of medications and instructions on how to take them. At the end of the sixth week, they finish taking the medications. During the study, patients undergo three lumbar punctures (spinal taps) - at weeks 2, 4, and 6 - to measure BDNF and various other brain chemicals. For this test, a local anesthetic is given and a needle is inserted in the space between the bones in the lower back where the CSF circulates below the spinal cord. A small amount of fluid is collected through the needle. The procedure generally takes from 5 to 20 minutes. Patients return to the clinic 2 weeks after completing the study medication for a final evaluation, including a physical examination and blood and urine tests.
The present study aims to address gaps in the literature by evaluating the objectively measured dose-response relationship between exercise and depression symptoms; examining changes in resting (Brain-derived Neurotrophic Factor) BDNF from baseline to week 10 of an exercise intervention; and assessing varying exercise intensities on enjoyment, affect, and health-related quality of life in sedentary young adult college students.