View clinical trials related to Cognition Disorders.
Filter by:The primary objective of this multicenter observational study is to determine the effect size of the relationship between DCI and neuropsychological impairment 14-28 days and 3 months after aSAH. Secondary objectives are the feasibility to administer and the validity of the MoCA in an intensive care unit setting, as well as the test/retest reliability of the MoCA in patients with acute brain damage in absence of aSAH.
To investigate long term affects of multiple concussions on the cognition, balance, proprioception, and biomarkers in retired National Hockey League players
The study is a substudy of the Enigma2 trial (NCT00430989) which aims at investigating the effectiveness and safety of nitrous oxide (N2O) in anaesthesia.The substudy focus is on postoperative cognitive disorders. Substudy Hypothesis: In patients undergoing anaesthesia for major surgery, administration of N2O will reduce postoperative cognitive disorders when compared with otherwise identically managed surgical patients not receiving N2O as a component of their anaesthesia.
Noninvasive brain stimulations (NIBS) will be used in MS patients with cognitive impairments to enhance their cognitive aptitudes.
The research leading consortium to these results has received funding from the European Union Seventh Framework Programme [FP7/2007-2013] under grant agreement no 602461 (www.biocog.eu). The investigators will establish valid biomarkers panels (neuroimaging and molecular) for risk and clinical outcome prediction of postoperative delirium (POD)/postoperative cognitive deficit (POCD) in elective surgical patients (Age ≥ 65 years) in study centers in Berlin,Germany (data collection within 2 years after initial hospital stay) and Utrecht, The Netherlands (data collection within 1 year after initial hospital stay), thereof cerebrospinal fluid (only once on day of surgery in patients with planned spinal anesthesia/combined spinal epidural analgesia in patients, only in Berlin). A control group of ASA II/III- patients is collected for measuring the learning experience during the cognitive testings. The participants are matched on age, education, and gender to the study patients. The ASA II/III- control patients receive additionally MRI-scan (3 Tesla) at baseline, after 3 months and after 1 (Utrecht) and 2 years (Berlin). To analyze scanner variability we additionally measure at maximum 20 subjects (Age ≥ 65 years, ASA I and II) from Utrecht in the MRI scanner (3-Tesla) in Berlin and vice versa. A study group at maximum (n= 80) and is collected for measuring 7 Tesla MRI at two timepoints (Baseline and 90 days).The primary endponit of this substudy is gamma amino-butyric acid concentration in CNS after 3-months (measured by MRI). A retrospective comparison group (extracting 8000 intensive care unit patient data from the patient data management system during the BioCog study period in 2016) to analyse economic effects that are caused by the implementation of quality indicators in health care. An interim-analysis is performed on the primary endpoint after 400 included patients. The resulting (multivariate) expert system is expected: 1) to support clinical decision-making in patient care, e.g. to balance the individual POD/POCD risk against the expected overall clinical outcome of an (elective) surgical intervention, 2) to allow the design of more sophisticated and hypothesis-driven clinical studies and drug trials (translational research) in the future. The latter will be possible on the basis of biomarker-based sub-grouping of patients and a better understanding of relevant pathophysiological processes. Furthermore, a state-of-the art clinical database and biobank will be created that does not yet exist worldwide. Both the expert system and the reference database/biobank will expand the leadership of the contributing academic institutions in this particular research area. In addition, the newly created biobank will become an integral part of the European Biobanking and Biomolecular Resources Research Infrastructure (BBMRI) which allows top address specific and hypothesis-driven research questions. Most notably, the developed (multivariate) expert system also has the potential for commercialization. Possible customers are: 1) physicians and hospital departments being involved in pre-surgical decision making, 2) pharmaceutical industry intending to conduct biomarker-based drug trials in POD/POCD.
The purpose and objective of this study is to determine the prevalence of elevated ammonia levels in subjects with cognitive impairment, and to observe if treating the cause of the elevated ammonia level improves mental status. This study does not include any imaging, treatment,or interventions, other than the blood draws. The blood draws will be taken to assess blood ammonia level and liver function. If the the ammonia level is not elevated, no further lab draws will occur. If the ammonia level is elevated, liver function is normal, and a cause for the high ammonia level is revealed with a plan for clinical treatment by the subjects' physician, then two more blood draws will occur; one prior to treatment, and one 3 months after treatment. The main risk to subjects is related to the blood draw (i.e. momentary discomfort, bruising, infection, bleeding, clotting or fainting), and there is a potential loss of confidentiality. A paired student t test will be done with the two later blood to compare objective data.
The main objective of this study is to look for the interest forecast of the IPS as infra-clinical cardiovascular marker in the prediction of a change of the cognitive functions (MCI) at the elderly of 70 and more years old without clinical cardiovascular pathology.
The physio-pathology of Alzheimer's disease (AD) remains unknown and there is no cure. Thus, the search for objective markers of preclinical first signs of cognitive impairment, is currently a major public health issue. Early detection of the disease is a major challenge to hope to slow or even stop the neurodegenerative process before the stage of dementia. In AD the investigators observe: - A reduction in the volume of brain hippocampi associated with an alteration of the diffusion of water molecules in the white matter. - A structural brain degeneration coupled with a decrease in cerebral glucose metabolism. Recent publications show that cerebrospinal fluid (CSF)flow is also altered, probably due to dysfunction of the choroid plexus. Hence the potential interest to study is, in addition to conventional imaging, the imaging of CSF dynamics and choroid plexus metabolism. In that aim,the investigators use two imaging modalities: - Magnetic resonance imaging (MRI) is used to assess blood and CSF flow in the brain - Positron emission tomography (PET) is used to assess glucose metabolism in grey/white matter and also in choroid plexus. The investigators expect that, because of choroid plexus atrophy in AD, CSF flow would be altered as well as glucose metabolism dynamic in choroid plexus.
Phosphodiesterase (PDE) inhibitors represent a new group of potential antipsychotic compounds currently under development. One of these is papaverine, an inhibitor of the PDE 10 family. The class of PDE10 inhibitors have been reported as possible candidates in the treatment of schizophrenia, and may prove an attractive antipsychotic alternative due to the many side-effects of the currently available antipsychotics. It has been proposed from preclinical studies that PDE10 inhibitors have the potential to reduce cognitive deficits in schizophrenia and these findings need to be confirmed in a human population, in view of the fact that no other currently registered drug posses these unique properties. The currently proposed project is designed to investigate whether the PDE10 inhibitor Papaverine indeed have the capacity to reduce cognitive deficits in schizophrenia patients. In order to accomplish this effect, Papaverine will be investigated in schizophrenia, with regards to symptomatology, hemodynamic, neurocognition and early information-processing.
The goal of this project is to determine if task-activated fMRI is sensitive to the central cholinergic deficit associated with Mild Cognitive Impairment.