View clinical trials related to Alzheimer Disease.
Filter by:The primary objective of the study is to evaluate the efficacy of AGB101 on slowing cognitive and functional impairment as measured by reduction in neuronal injury in participants with mild cognitive impairment due to Alzheimer's Disease. Participants will be randomized to receive placebo or AGB101 (220 mg), once daily for 78 weeks. Secondary objectives are to assess the effect of AGB101 compared with placebo on clinical progression as measured by the Clinical Dementia Rating Scale- Sum of Boxes and Memory Box score.
The goal of this study is to determine if weight loss or changes can help prevent of delay adults with Down syndrome from developing Alzheimer's Disease Adults with Down syndrome without dementia will be randomized to either a weight loss group or a general health education control group. The weight loss group will be asked to follow a reduced energy diet, attend monthly education sessions delivered remotely and self-monitor diet and body weight using commercially available web-based applications. The control group will be asked to attend remotely delivered monthly education sessions on general health education topics. All participants will come to the University of Kansas Medical Center, 3 times across 12 months for a blood draw, cognitive testing, a MRI, assessment of height and weight, and assessment of diet intake.
This research study is intended to 1) better understand seriously ill adults' and their family care partners' (FCP), particularly for persons living with dementia (PLwD), barriers to accepting community-based palliative care (CBPC); 2) develop an intervention to address barriers; and 3) pilot test whether the intervention has an impact on CBPC uptake. The intervention will consist of 1) a set of informational material describing the benefits of CBPC for the CBPC team to use when presenting CBPC to members of a Medicare Advantage plan and their FCP; and 2) processes for tailoring information delivery so that eligible members and their FCP receive information about CBPC that reflects their individualized risk as identified by the Medicare Advantage program's validated 12-month mortality risk algorithm. The clinical trial portion of the study refers to the pilot test (Aim 3 as described below).
Investigators' recent findings from the pilot clinical trial in MCI individuals demonstrated EVOO improved vascular function and memory. Yet, up to date, whether EVOO protects against AD in individuals with a family history of AD is unknown. Thus, in this study, the investigators will recruit healthy individuals with a family history of AD for participation. From eligible participants, blood samples for ApoE genotyping will be collected, followed by metabolomics, lipidomics, and transcriptomics analyses at baseline. Participants will be randomized into 2 groups (n=20 each); one group will receive EVOO daily (~2 tablespoons, 30 ml) for 6 months, and the second group will not receive olive oil. Both group participants will receive educational information on brain health and how environmental factors such as lifestyle, diet, and exercise could impact brain health. After 6 months, another blood sample will be collected from the participants to evaluate the effect of EVOO on metabolites, lipids, and genes, and thus physiological pathways. The investigators will perform non-targeted and comprehensive metabolomics, lipidomics, and transcriptomics analyses. Examples of metabolites to be analyzed are antioxidative and anti-inflammatory metabolites, neurotransmission, mitochondrial, tryptophan, and purine metabolisms. Examples of lipidomics include sphingomyelins (SMs), cholesterol esters (ChEs), phosphatidylcholines (PCs), phosphatidylethanolamines (PIs), phosphatidylinositols (PIs), and triglycerides (TGs). Transcriptomics will be used to identify changes in mRNAs involved in different pathways contributing to AD, such as genes involved in inflammation and oxidative stress, in both ApoE-dependent and independent fashion.
Advance care planning is important for all adults, but perhaps even more so for the 5.7 million persons with Alzheimer's disease or related dementia (ADRD), due to the progressive and protracted cognitive deterioration associated with the disease process. In the context of ADRD, medical decision-making at the end of life is typically left to one's care partner, who often does not have the knowledge or confidence in their ability to make such decisions. This study will refine and evaluate a web-based platform, called the LEAD Intervention (Life-Planning in Early Alzheimer's and other Dementias), which is designed to help persons in the preclinical or early stage of ADRD engage in conversations about, document, and share their end-of-life values and preferences with a care partner, extended family members, and health care providers.
The project is a placebo-controlled study that aims to use closed-loop transcranial alternating current stimulation (tACS) to study patients with symptoms of mild cognitive impairment which is likely due to Alzheimer's disease or another form of dementia (AD-MCI). Patients will undergo an EEG and complete some questionnaires and computer tasks during each study visit. The project has the following aims and hypotheses: 1.) To determine the impact of closed-loop 40 Hz tACS on the entrainment of natural gamma rhythms in patients with AD-MCI, 2.) To determine the impact of closed-loop 40 Hz tACS on cognitive performance in patients with AD-MCI, and 3.) To assess the relationship between baseline neurodegenerative burden and impact of tACS. [exploratory]
The major goals of the study are to 1) characterize hippocampal activity in patients with mild cognitive impairment (MCI) due to Alzheimer's disease (AD) and AD who have suspected hippocampal epileptic activity based on scalp EEG recordings from IRB # 21-001603; 2) study the efficacy of brivaracetam to suppress epileptic activity and pathological high frequency oscilations (pHFOs) during hippocampal depth electrode and scalp EEG in patients with MCI and AD; and 3) investigate the effects of brivaracetam on cognition in an open-label pilot study.
This project will investigate the potential of Deep Brain Stimulation to improve cognitive abilities and counteract the effects of Alzheimer's disease. Deep Brain Stimulation electrodes targeting the Nucleus Basalis of Meynert (NB) will be implanted bilaterally in a cohort of patients. NB is the sole source of acetylcholine to the neocortex. Such stimulation may not only treat the cognitive symptoms but may have disease-modifying effects. Drawing from animal experiments in non-human primates that showed success of this approach, intermittent stimulation will be delivered at 60 pulses per second for 20 seconds of each minute for one hour per day. The study team will recruit patients, shortly after first being diagnosed with Alzheimer's disease. The study design will test the safety and efficacy of stimulation, potential benefits in cognitive function assessed with a battery of neurocognitive tests, cholinergic neurotransmission evaluated with Positron Emission Tomography, and ability to reverse Alzheimer's biomarkers, including beta amyloid and tau in the cerebrospinal fluid. Successful completion of this project will lead to a potential new intervention for the cognitive impairments of Alzheimer's disease.
Etiology and cognitive prognosis in late onset epilepsy differ from young adults epilepsy. At the epilepsy onset, this is crucial to detect potential curative/treatable brain disorders. After classical investigation including morphological brain imaging, EEG, clinical assessment, which added value may have brain FDG PET in the diagnosis and prognosis evaluation?
The purpose of this study is to evaluate the effects of tricaprilin (20 g twice a day) on cognition, activities of daily living, resource utilisation, safety and tolerability, in subjects with mild to moderately severe probable AD. This is a randomised, double-blind, placebo-controlled, parallel-group, multi-centre design in up to 535 participants.