View clinical trials related to Neurocognition.
Filter by:The main objective of this project is: 1. To assess the impact of COVID-19 on the brain and executive functioning. Twenty adult subjects of UZ Brussels (volunteers), who needed intensive care due to COVID-19 (n=10) or exhibited mild symptoms due to COVID-19 (n=10), will be recruited after hospital discharge. After signing an informed consent the subjects will undergo brain scans (T1, DTI, SWI, DWI, FLAIR MRI and rsfMRI), an emotion regulation task and a neurocognitive test battery. The latter test battery will be performed using an iPad and will test different neurocognitive functions such as memory, abstract thinking, spatial orientation and attention. The duration of the test battery is 18min. The total duration of one trial is estimated at one hour and a half. All tests are planned at the department of Radiology-Magnetic Resonance (UZ Brussel). After three months patients will visit the department of Radiology-Magnetic Resonance a second time for the same experimental trial. Additionally, a matched control group (n = 20; non covid or ICU patients) will be included and undergo the same tests in order to compare the results of the brain scans, emotional regulation task and neurocognitive test battery with results of both Covid-groups. Next to objective data, questionnaires will be filled out, i.e. visual analogue scales of mental and physical fatigue, Profile of Mood States and some additional return to work questions.
The aim of this study is to show the physiological changes during manic episode in bipolar mania how much they differentiate from remission and healthy control. Relation of audio-visual features as physiological changes and cognitive functions and clinical variables will be searched. The aim is to find biologic markers for predictors of treatment response via machine learning techniques to be able to reduce treatment resistance and give an idea for personalized treatment of bipolar patients.
The purpose of this study is to evaluate the psychometric properties and utility of new, computerized, neurocognitive measures in humans with depression, and humans with depression undergoing electroconvulsive therapy (ECT). The benefits of the study outweigh the risk as there is the possibility of developing better computerized neurocognitive measures, and the risks are limited to no more than minimal test related fatigue and psychological stress. Depressed humans, depressed human participants undergoing ECT, and humans diagnosed with Parkinson's disease (age 18-85) will be invited to participate in this study. After providing informed consent participants will undergo a clinical psychiatric evaluation to confirm the inclusion/exclusion criteria. After the clinical psychiatric evaluation, participants will complete common and new neurocognitive measures. There will be a total of two testing visits (baseline, 1-month follow-up). The anticipated duration of the participant's involvement is no more than 2 study visits that can take place over a 4-day period (i.e., the clinical evaluation can occur on day 1 and the neuropsychological measures can be administered on day 2 of each study visit) equating to approximately 6-hours (3-hours each day) per study visit.
This study was designed to investigate whether milnacipran is safe and effective in improving cognitive function in fibromyalgia. In addition, this study was aimed to investigate whether improvement in neurocognitive status due to milnacipran correlates with improvements in pain, to investigate whether improvement in neurocognitive status due to milnacipran correlates with improvements in fatigue, and to determine whether treatment with improvement in neurocognitive status, pain and fatigue correlates with functional improvement.