View clinical trials related to Alzheimer Disease.
Filter by:Alzheimer's Disease, AD is a type of neurofibrillary tangles formed by the deposition of beta amyloid proteins within the nervous system cells and excessive phosphorylation of extracellular Tau proteins, NFTs are the main pathological features of central nervous system degeneration, also known as senile dementia. In addition, synaptic plasticity damage and neuroinflammation also play important roles in the progression of AD. Neurosynapses are the sites where neurons interact with each other in terms of function, and are also crucial for neuronal information transmission and communication. Synapses are the fundamental units in the brain, and synaptic activity can stimulate the maturation of mushroom like dendritic spines and form new synapses, enabling synaptic strength to adapt to changes in the internal and external environment, thereby playing an important role in learning and memory. Previous studies have shown that synaptic activity interruption and synaptic loss can already be detected in the AD brain, especially in the early stages. Multiple studies have shown a higher correlation between synaptic disorders characterized by synaptic loss and decreased synaptic activity and cognitive impairment in Alzheimer's disease compared to age-related plaques and neurofibrillary tangles. Therefore, understanding the potential mechanisms of synaptic disorders will contribute to the development of early treatment strategies for AD. MicroRNAs (miRNAs) are a type of small non coding RNA with a length of approximately 22 nucleotides. Their main function is to silence target genes at the post transcriptional level and inhibit the translation process of their proteins. MiRNAs are involved in many physiological processes and pathological pathways, including development, tumorigenesis, and heart disease. Recently, people have also studied the abnormal regulatory role of miRNAs in AD synaptic disorders. Some miRNAs enriched in the brain, such as miR-124, MiR-132 is abnormally expressed in the AD brain, mediating synaptic plasticity damage. However, most of the miRNAs mentioned above are not directly related to synaptic activity, and their regulation of AD synaptic damage is likely to be a broad-spectrum effect. At present, there are 12 miRNAs closely related to synaptic plasticity that have been identified. By detecting changes in miRNAs closely related to synaptic plasticity in peripheral blood of AD patients and healthy volunteers, and exploring their relationship with the severity of AD lesions, it may provide new directions for early diagnosis of AD. The purpose of this study is to: (1) detect the expression levels of miRNAs closely related to synaptic plasticity in the peripheral blood of healthy volunteers and AD patients, and identify the miRNAs with the greatest differences; (2) Analyze the relationship between the expression levels of the aforementioned miRNAs in the peripheral blood of AD patients and the severity of the disease; (3) Analyze the relationship between the expression levels of the aforementioned miRNAs in the peripheral blood of AD patients and the commonly used neuropsychiatric scale scores. We plan to clarify the changes in peripheral blood miRNAs and their relationship with the severity of AD through case-control studies, in order to provide new directions for early diagnosis of AD.
The purpose of this research study is to determine the safety of a radiotracer 18F-Fluselenamyl using positron emission tomography (PET) imaging.
previous studies indicated that sensory input can have positive impacts on finger force control in the elderly. Additionally, according to previous reports, apart from pharmacotherapy, nonpharmacologic interventions, such as psychosocial-environmental treatments, are emerging for the behavior and affective symptoms in AD . Moreover, enhanced finger force control and coordination lead to better hand dexterity and is believed to eventually improve life independence in the healthy elderly and the elderly with AD. Therefore, this study aims to develop novel virtual visual and haptic stimulation systems for the elderly to enhance their finger force control.
Investigators propose a phase 1b/2a, randomized, double-blind, placebo-controlled, parallel group dose finding and biomarker study to evaluate the safety, tolerability, and biomarker activity of 2-HOBA in 48 MCI/AD participants. Participants will be randomized 1:1:1:1 to receive 250, 500, 750 mg 2-HOBA acetate TID or placebo for 16 weeks. Blood and cerebral spinal fluid (CSF) will be collected to measure markers of protein modification by dicarbonyls (IsoLGs- & MDA), pTau-181, YKL-40, and NF-L.
This pilot and feasibility study will enable the research team to determine the feasibility of implementing a time-restricted eating regimen among adults with mild cognitive impairment (MCI) and the impact of time-restricted eating on cognitive performance and biomarkers of metabolic health in this population. Study staff will execute the specific aims using a pre-post, non-randomized study design in which all participants receive the intervention. The intervention is a 16/8 time-restricted eating regimen characterized by fasting for 16 hours and eating within an 8-hour window on 5 days per week for 3 months. Assessments will be performed at baseline and after the 3-month time-restricted eating intervention with the following outcome measures. Outcome measures for feasibility include participant recruitment, retention and metrics of acceptability, safety, and adherence to the intervention. Outcome measures for cognitive performance and metabolic health include neuropsychological tests, blood biomarkers, and surveys of psychological well-being.
This phase 2 study will evaluate the safety, tolerability, clinical efficacy, pharmacokinetics, and pharmacodynamics of SPG302 in adult participants with mild-to-moderate AD.
In humans, insulin is secreted in pulses from the pancreatic beta-cells, and these oscillations help to maintain fasting plasma glucose levels within a narrow normal range. These pulses become disrupted in the presence of insulin resistance. Some people have referred to Alzheimer's Disease as type 3 diabetes because the glucose uptake in the brain is reduced by 30%. Clinical observations in clinics that treat patients with insulin pulses every 5 minutes for 3 hours twice a week for 2 weeks followed by once a week for 6 weeks and followed by less frequency treatments suggest an improvement in type 2 diabetes control, reduction in insulin resistance and an improvement in diabetes complications. A patient with Parkinson's Disease was treated with this pulsed insulin paradigm and experienced dramatic improvement that has now been maintained over years. Parkinson's Disease has been reported to have a decreased glucose uptake in the brain, so pulsed insulin treatment was tried in a small number of patients with Alzheimer's Disease and there was an impression that they showed improvement. Clinics that use pulsed insulin treatment change more than one parameter of the insulin pulses which makes it difficult to determine what is giving the improvement. The euglycemic hyper-insulinemic clamp, also called a clamp, is a well-standardized test that measures insulin resistance and involves intravenous insulin infusion. This single patient study will enroll one patient with early Alzheimer's disease and insulin resistance. The subject will have one standard clamp test with continuous insulin followed by 4 clamps over a 2-week period using the same amount of insulin over the same period of time but administered in pulses every 5 minutes. This was the number of pulsed insulin treatments needed to see a dramatic improvement in Parkinson's disease. The cognition in the Alzheimer's disease patient will be thoroughly evaluated with questionnaires and walking on a special mat while doing arithmetic tasks before and after the 4 pulsed insulin clamps. If this study demonstrates an improvement in cognition, one will know that the only thing that changed from the standard clamp was the pulse nature of the insulin delivery.
The purpose of this study is to assess the safety, tolerability, biomarker, cognitive and clinical efficacy of investigational products in participants with an Alzheimer's disease-causing mutation by determining if treatment with the study drug slows the rate of progression of cognitive/clinical impairment or improves disease-related biomarkers.
The proposed study will establish the feasibility, acceptability and credibility of a novel live video dyadic resiliency intervention, Resilient Together for Dementia (RT-D), aimed at preventing chronic emotional distress and preserving quality of life among dyads at risk for chronic emotional distress early after a diagnosis of Alzheimer's disease or a related dementia (ADRD).
The goal of this clinical trial is to learn if acupuncture works to treat mild-to-moderate Alzheimer's disease, as well as the difference of its effect in APOE e4 carriers and non-carriers. It will also learn about the safety of acupuncture. Researchers will compare acupuncture to a placebo (sham acupuncture) to see if acupuncture works to relieve the cognitive impairment and improve the ability of daily living and the quality of life. In addition, the plasma and neuroimaging biomarkers will be included as objective indexes. Participants will: Experience acupuncture or sham acupuncture 3 times per week for 12 weeks, and receive a 52-week follow-up. Visit the clinic at Week 12, Week 38 and Week 64 for checkups and tests.