View clinical trials related to Mild Cognitive Impairment.
Filter by:The goal of this clinical trial is to test the effects of MitoQ supplementation in older adults and frail older adults with physical dysfunction and/or cognitive dysfunction. The main question[s] it aims to answer are: - To compare vascular function, oxidative stress levels, and physical and cognitive function among older adults and frail older adults with physical and cognitive dysfunction - To determine whether MitoQ supplementation has the potential to improve vascular function in central and cerebral vessels - To determine whether MitoQ supplementation can enhance physical and cognitive capabilities.
There is a major unmet need for timely, non-invasive, and low-burden evaluation of patients presenting with mild cognitive impairment (MCI) and dementia. MCI impacts 12-18% of people in the United States over age 60 years (Alzheimer's Association. Mild Cognitive Impairment (MCI) available at https://www.alz.org/alzheimers-dementia/what-is-dementia/related_conditions/mild-cognitive-im pairment. Accessed August 16, 2022). MCI does not substantially interfere with daily activities, although complex functional tasks may be performed less efficiently (Knopman DS, Petersen RC. Mild cognitive impairment and mild dementia: a clinical perspective. Mayo Clin Proc. 2014;89(10):1452-1459. doi:10.1016/j.mayocp.2014.06.019). Approximately 30% of MCI patients have Alzheimer's disease (AD) as a cause of their symptoms (Lopez,OL, Kuller LH, Becker JT, et al. Incidence of dementia in mild cognitive impairment in the cardiovascular health study cognition study. Arch Neurol. 2007;64(3):416-420.doi:10.1001/archneur.64.3.416)). In contrast, dementia is defined by chronic, acquired loss of two or more cognitive abilities caused by brain disease or injury, often associated with significant interference with the ability to function at work or at usual activities. (Knopman DS, Petersen RC. Mild cognitive impairment and mild dementia: a clinical perspective. Mayo Clin Proc. 2014;89(10):1452-1459. doi:10.1016/j.mayocp.2014.06.019). Approximately 60-80% of dementia patients have AD as a cause of their symptoms (Alzheimer's Association. Mild Cognitive Impairment (MCI) available at https://www.alz.org/alzheimers-dementia/what-is-dementia/related_conditions/mild-cognitive-im pairment. Accessed August 16, 2022).
This clinical trial is being conducted to see if brain stimulation and brain training together improves cognitive functioning and mood in older adults diagnosed with Mild Cognitive Impairment (MCI). Brain stimulation will be done using repetitive Transcranial Magnetic Stimulation (rTMS). Brain training will be done using immersive virtual reality cognitive training (iVCT) program. The goals of this clinical trail are as follows: - Examine if rTMS+iVCT intervention can improve and sustain objective cognitive functioning in individuals with MCI more than control or rTMS only groups - Examine if rTMS+iVCT intervention improves participants mental health symptoms, functional abilities, and quality of life more than control or rTMS only groups - Examine the impact of rTMS+iVCT intervention on caregiver burden. Eligible participants will be assigned to a standard treatment (no intervention control) group, rTMS only group of rTMS+iVCT group. All participants will undergo baseline assessment to evaluate their cognitive, emotional, and functional abilities. Those in the rTMS only group will receive rTMS treatments for five days per week for two weeks (total of ten sessions). Those in the rTMS+iVCT group will receive rTMS treatment followed by iVCT training for five days a week for two weeks (total of ten sessions). All participants will then repeat testing 2 weeks and three months after baseline testing to assess for possible treatment related changes and lasting effects.
Years before someone experiences the symptoms of Alzheimer's disease, a compound called amyloid beta (Aβ) builds up in the brain. Excess Aβ - directly or indirectly - causes many of the symptoms of Alzheimer's dementia. However, recent studies of the FDA-approved drugs lecanemab (Leqembi®) and aducanumab (Aduhelm®) indicate that removing Aβ from the brain doesn't stop Alzheimer's. Clearly, there are other problems that need to be fixed. The investigators are interested in the cause of Aβ buildup. Non-neuronal support cells, called glia, keep neurons healthy by regulating water and nutrient levels for the neurons. They also help clear Aβ away from neurons. Maybe Aβ builds up when glia are unhealthy. Glia are very hard to study in the brain. Luckily, the light-sensing part of the eye - the retina - is an extension of the brain. The investigators study glia in the retina to learn about glia in the brain. To study retinal glia, the investigators take pictures of the retina with optical coherence tomography (OCT). OCT is safe, painless, and is used in many eye clinics to look at the structure of the retina. When the investigators take OCT pictures under a bright light, and compare those to OCT pictures collected in darkness, it gives the investigators information about glial function. In a study published in 2020 ("Optical coherence tomography reveals light-dependent retinal responses in Alzheimer's disease") the investigators showed that this functional OCT measurement was different in people with Alzheimer's dementia, compared to age-matched healthy adults. The goal of this observational study is to compare people at a pre-dementia stage of Alzheimer's disease to people who do not have any signs at all of Alzheimer's disease. By "pre-dementia stage", the investigators mean people who are either cognitively normal, or have mild cognitive impairment, but have had a medical test that shows the chemical beginnings of Alzheimer's disease. Members of the comparison group will also be cognitively normal, or have mild cognitive impairment, but had a medical test that shows utterly no signs of Alzheimer's disease. The main question this study, is whether functional OCT can tell these two groups apart. If so, that would: - Help build the case for glial health being important in the earliest stages of Alzheimer's, which in turn could lead to new treatment strategies, and - Suggest that functional OCT might be used as an early (pre-dementia) screening test for Alzheimer's disease Participants will: - undergo a brief eye exam (the investigators will not dilate pupils for this study) - undergo a paper-and-pencil cognitive test (to help verify "normal" or "mild cognitive impairment" status) - take brief one-page survey to collect demographic information (like age) - permit limited access to pre-existing medical or research records (to verify the presence/absence of the chemical beginnings of Alzheimer's disease) - take several OCT pictures of both eyes, in light and after 2 minutes of darkness (several rounds of images are taken) The expectation is that all study procedures will fit within 2 hours of one day.
The goal of this observational trial is to leverage the electronic Self-Administered Gerocognitive Examination (eSAGE), a variety of metadata (a set of data that describes and gives information about other data) collected during eSAGE testing, electronic health records (EHR) information, and advanced machine learning (ML) techniques to develop a new tool that can aid in early-stage prediction of individuals with cognitive impairments.
Mild cognitive impairment (MCI) leading to Alzheimer's disease and related disorders (ADRD) represents a significant health and economic burden of the rapidly expanding senior population. The accurate detection and diagnosis of MCI and its common comorbidity, late-life depression (LLD), is essential for prolonging patient quality of life and developing advancements in research and treatment options. The purpose of the proposed program is to refine Miro Health's A.I. to accurately detect, differentiate and diagnose MCI and LLD.
The investigators will present a new strategy for working with oral health for the group of elderly people with various degrees of mild cognitive impairments. The investigators hope that by introducing a powered toothbrush with functions that make it possible to remind and gather information about the use, the investigators will primarily facilitate oral care for this group, and are proposing that this will lead to higher quality of life of the persons involved.
In a society with increased life expectancy, the economic, social and personal burden of dementia increases. Dementia is often caused by a combination of neurovascular and neurodegenerative diseases. Impaired brain clearance is suggested to be closely related to dementia development, as waste products (e.g. amyloid beta) accumulate in the brain, leading to neurodegeneration. Cerebral small vessel disease (SVD) is the most common neurovascular disease that even contributes to about 45% of dementia pathophysiology in patients with a diagnosis of Alzheimer's dementia. White matter hyperintensities of presumed vascular origin (WMH) are the key brain MRI manifestation of cerebral SVD. There is evidence that the currently known and MRI-visible WMH are landmarks of an already progressed stage of the underlying pathology. The pathophysiology of WMH has been attributed to multiple underlying mechanisms, such as hypoperfusion, defective cerebrovascular reactivity and blood-brain barrier dysfunction. Furthermore, different anatomical locations and different types of WMH are related to different underlying pathological changes. Using ultra-high field 7T MR imaging techniques WMH lesions can be detected with a higher sensitivity and resolution than on 3T MRI. The hypothesis is that different pathological mechanisms of cerebral SVD lead to variations in WMH shape. Moreover, the brain clearance ('glymphatic') system of the brain appears to be tightly connected to dementia pathology. Thus, novel markers of glymphatic activity could aid to describe and understand the pathology.
This trial will examine scheduled exposure to bright light in the morning and afternoon as a countermeasure to sleep fragmentation in older individuals with mild cognitive impairment.
(JUSTIFICATION: This is the R33 stage of an NIH funded R21/R33 study. R21 stage (IRB-61727) was focused on intervention development; R33 stage will focus on pilot testing the effect of the intervention. The R21 phase was not considered a NIH defined clinical trial; R33 will be considered a NIH defined clinical trial) The purpose is to develop and test the effect of a "personalized" computer-based cognitive training program. The personalized program tailors the difficulty of the training tasks using a participant's biofeedback (i.e., heart rate) and cognitive performance. Such a personalization will ensure that the participant can perform at his/her ideal training capacity. Participants will be randomized into one of 2 groups and each group will play a different version of computerized training game and have ECG collected to allow subject blinding.