View clinical trials related to Neurobehavioral Manifestations.
Filter by:Available pharmacological and psychotherapeutic treatments are not effective for the treatment of cognitive symptoms of major depressive disorder (MDD). More recent studies have described that functional disability and the indirect costs of MDD (e.g., sick leaves at work, decreased productivity, ...) are related to persistent cognitive deficits. Some programs of cognitive rehabilitation and cognitive training (developed for other pathologies) have been tested, but the results are inconsistent. There is an imperative need to develop a specific comprehensive rehabilitation program for MDD that includes the benefits of traditional functional remediation (FR) and computerized cognitive training (CCT) programs adjusted for each patient's cognitive deficit.
Kangaroo position (KP), the essential component of the Kangaroo Mother Care (KMC) method, has been increasingly implemented, given the benefits of early skin-to-skin contact on the cerebral maturation of preterm infants. In addition it allows for parents to bond with their infants and humanize the care of fragile infants in neonatal units. Evidence on kinesthetic stimulation (KS) is scarce and currently there is no available evidence on KS during the KP. KS is associated with massage in this paper
This study examines the effects of computerbased cognitive rehabilitation on executive functions in the chronic phase after acquired brain injury
This study is a controlled trial of metformin in individuals with fragile X syndrome between the ages of 6 and 25 years. Participants will be randomized in a double-blind design to either drug or placebo and will attend three visits to the study site in a 4-month period for a series of tests. The primary objectives are to assess safety, tolerability, and efficacy of metformin in the treatment of language deficits, behavior problems, and obesity/excessive appetite in individuals with fragile X syndrome.
This phase Ib study aims to evaluate applicability of touchscreen-based cognitive test battery for assessment of ketamine-induced schizophrenia-like cognitive deficits in healthy volunteers. Additionally, the study aims to assess whether ketamine-induced cognitive deficits are reversed by modafinil using touchscreen-based test battery for testing of cognition.
The aim of the project is to assess the efficacy of Adjunctive Selective Estrogen Receptor Modulators (Raloxifene) on Negative and Cognitive symptoms of Schizophrenia in Postmenopausal Women. For postmenopausal women with schizophrenia, current research suggests that these people can be treated with estrogen, which can reduce cardiovascular and reproductive tissue problems, help sleep and improve mood. In addition, cognitive problems in this group of people can also be helped. Raloxifene is a Selective Estrogen Receptor Modulator (SERM), which means that it can affect the central nervous system (CNS) effects of estrogen (eg. improving emotional symptoms, memory, information processing and concentration), without adversely affecting reproductive tissue/organs such as breast, uterus and ovaries. The investigators are conducting a double-blind, placebo controlled, 12 weeks study comparing the negative symptoms and cognitive functions in postmenopausal women with schizophrenia in both groups. One group will receive clozapine plus 60mg Raloxifene (Usage: take 60mg Raloxifene tablets half an hour after breakfast every day, that is, take 1 tablet a day), while the second group will receive clozapine plus oral placebo (Usage: take 1 placebo half an hour after breakfast every day). Hypothesis 1: Adjuvant raloxifene therapy in postmenopausal women with schizophrenia can improve negative symptoms, as measured on the rating scales, compared with the women receiving adjunctive placebo. Hypothesis 2: The cognitive function of postmenopausal female schizophrenic patients treated with raloxifene would be better than that of the placebo group. Hypothesis 3: That the Raloxifene group has less adverse reactions in postmenopausal women with schizophrenia.
This observational study will investigate whether differences in birth events and oxygen levels during the newborn period affects the brain activity of children during the middle childhood years.
This study will investigate the effects of aerobic exercise on mental states, cognition, BDNF, and long-term outcomes in patients with bipolar disorder.
The investigators will conduct a non-randomized clinical trial to examine the effect of pure oxygen breathing on the brain. The study will compare cerebral blood flow, cortical electrical activity, and cognitive performance in 32 persons during room air (21% oxygen) breathing and pure oxygen (100% oxygen) breathing. Subjects will be used as their own controls. The investigators aim to: 1. Determine whether breathing 100% oxygen changes blood flow through the brain. The investigators will learn whether brain blood flow is increased, decreased or stays the same. 2. Determine if changes that might occur in brain blood flow are also accompanied by changes in the brain's electrical activity (EEG). 3. Learn whether changes in the speed at which the brain processes information (cognitive function) accompany changes in brain blood flow and electrical activity that may be seen.
This study will use non-invasive neuroimaging (i.e., MRI) to examine whether Mindfulness-Based Stress Reduction (MBSR) improves neural markers of cognitive function for postmenopausal women taking aromatase inhibitor (AI) therapy for breast cancer. The pilot randomized controlled trial will obtain preliminary efficacy of MBSR versus Health Enhancement Program (HEP) active control to improve neural markers of cognitive function. The final sample will include 32 postmenopausal women with breast cancer. MBSR and HEP groups will meet for a matched schedule of 8 weekly 2.5-hour sessions and a one-day weekend retreat. Specimen and data collection will be done at three time points: pre-randomization (i.e., within three weeks before beginning the intervention), within three weeks after completion of the intervention, and approximately three months (+/- three weeks) post intervention. Change scores for neuroimaging parameter estimates will be correlated with change scores for measures of cognitive function and affect. Differential expression of genes will be correlated with neuroimaging parameter estimates.