View clinical trials related to Cognitive Dysfunction.
Filter by:The ability to maintain normal core body temperature (Tcore = 98.6°F) is impaired in persons with a cervical spinal cord injury (tetraplegia). Despite the known deficits in the ability of persons with spinal cord injury (SCI) to maintain Tcore, and the effects of hypothermia to impair mental function in able-bodied (AB) persons, there has been no work to date addressing these issues in persons with tetraplegia. Primary Aim: To determine if exposure of up to 2 hours to cool temperatures (64°F) causes Tcore to decrease in persons with tetraplegia, and if that decrease is associated with a decrease in cognitive function. Primary Hypotheses: Based on our pilot data: (1) 66% of persons with tetraplegia and none of the matched controls will demonstrate a decline of 1.8°F in Tcore; (2) 80% of persons with tetraplegia and 30% of controls will have a decline of at least one T-score in Stroop Interference scores (a measure of executive function). Secondary Aim: To determine the change in: (1) distal skin temperature, (2) metabolic rate, and (3) thermal sensitivity. Secondary Hypothesis: Persons with tetraplegia will have less of a percent change in average distal skin temperatures and metabolic rate, and report lower thermal sensitivity ratings compared with AB controls. Tertiary Aim: To determine if a 10 mg dose of an approved blood pressure-raising medicine (midodrine hydrochloride) will (1) reduce the decrease in Tcore and (2) prevent or delay the decline in cognitive performance in the group with tetraplegia compared to the exact same procedures performed on the day with no medicine (Visit 1) in that same group. Tertiary Hypothesis: Through administering a one-time dose of midodrine, the medicine-induced decreased blood flow to the skin will lessen the decline in Tcore and prevent or delay the associated decline in cognitive performance compared to the changes in Tcore and cognitive performance during cool temperature exposure without midodrine in the same group with tetraplegia.
The purpose of this study is to assess the level of neuroinflammation in Alzheimer Disease subject (mild to moderate) estimated with Binding Potential (BP) of [18F]DPA-714, and its relationship with the kinetics of cognitive decline over a 24-month follow-up period (as assessed by Alzheimer's Disease Assessment Scale-cognitive subscale (ADAS-Cog) and Mini-Mental State Examination (MMSE) scores).
The primary objective of this study is to determine whether baseline DOC screening can add to clinical and demographic data to predict the occurrence of a composite negative outcome (any of: recurrent stroke, myocardial infarction, death, or admission to a long-term care (LTC) / complex continuing care (CCC) facility) within one year of screening, in stroke prevention clinic patients.
The study examines subjects where there might be an indication for Amyloid-PET according to the Criteria defined by the Amyloid Imaging Task Force. In these subjects the impact of a Flutemetamol (Vizamyl)-Positron-Emission-Tomography -Scan (PET) on clinical management and disease course will be studied over 6 months.
This study plans to learn more about the brain function related to thinking problems in individuals with Parkinson's disease.
The study is designed to compare the effects of BI 409306 compared to placebo in patients with cognitive impairment due to Alzheimer's Disease
The goal of this pilot study is to develop and implement a larger scale, multi-site stepped collaborative care trial that targets injured patients with presentations of posttraumatic stress disorder (PTSD) and related comorbidities.
This study is being performed to generate data regarding brain vibration /oscillation differences between individuals with dementia and normal controls. The purpose of this study is to compare signal patterns generated from the impact on the scalp from these brain oscillation patterns from individuals with Alzheimer's disease, Frontotemporal Lobar Degeneration, Mild Cognitive Impairment and Age-Matched Normal Controls.
Many cancer survivors experience treatment-related impairments in mental abilities such as memory, attention, and concentration (known as cognition). Research indicates that physical activity can improve cognition in healthy adults; however, little is known about whether physical activity can improve cognition among cancer survivors. This study will test whether a physical activity intervention results in improvements in cognition among breast cancer survivors, which may lead to interventions to improve cognition.
The prevalence of both Alzheimer's Disease (AD) and stroke doubles each decade over 65 years old. Both are major causes of dementia, currently estimated to affect 46 million people worldwide. The current costs globally are $818 billion. Additionally, in population studies elders over 65 years, "covert" cerebral small vessel disease appears on MRI scans as silent lacunar infarcts in 25% as Microbleeds in 10%, and as focal or diffuse 'incidental' white matter disease (WMD) in 95%. WMD is extensive in 20%, with a clinical threshold effect around 10cc2. Small vessel disease is even more common in dementia, often coexisting with AD and independently contributing to cognitive decline and progression to dementia. Longitudinal imaging using cerebral amyloid labeling opens a new opportunity to understand the additive/interactive effects of small vessel disease and AD. The design of this study includes recruitment of two cohorts, including Mild Cognitive Impairment (MCI) and/or early Alzheimer Disease subjects from memory clinics and subjects with strokes/TIA from stroke prevention clinics. Inclusion criteria include the presence of moderate/extensive white matter disease, eg. Fazekas score of 2 (with confluent peri-ventricular hyperintensities) or Fazekas score of 3, as determined by previous MR or CT, > 60 years of age, Mini-Mental Status Exam (MMSE) scores ≥ 20. Subjects will undergo 3T structural MRI (including T1, PD/T2, FLAIR, GRE, DTI, ASL, and resting state fMRI), glucose PET, amyloid PET (using AV-45 florbetapir) and neuropsychological testing, as well as blood sampling. Repeat MR and PET/CT imaging and neuropsychological testing will be conducted at 24 months. The follow up assessments can also be completed at either year 1 or year 3 or Year 4 depending on the availability of study participants. The imaging portion is designed to closely parallel the Alzheimer's Disease Neuroimaging Initiative (ADNI) in order to benefit from the availability of both cognitively normal controls (NC), MCI and Alzheimer's disease subjects with minimal WMD.