Active clinical trials for "Alzheimer Disease"

Cognitive disorders include such things as memory disorders, mild cognitive impairment, and Alzheimer's disease (AD). The purpose of the study is to learn more about whether a dietary citicoline supplement will improve sleep and cognition. Sleep disturbances currently afflict approximately 25-44% of those with AD, resulting in decreased quality of life for those with AD and their caregivers and are a major driver of institutionalization. Previous studies have tested this dietary supplement in Alzheimer's disease and shown that citicoline may improve cognitive decline. The research team would like to see if citicoline will also improve sleep. The citicoline that will be provided is made by Kyowa Hakko Pharma Chemical Company. This dietary supplement has been tested for Alzheimer's disease and found to be well tolerated. Citicoline has previously been used safely in other Alzheimer's disease populations at the same dosage.

The investigators have developed a low-risk transcranial Electrical Stimulation (tES) treatment that has improved learning and performance in young adults up to nearly 4 times when compared with a sham control. This randomized pilot trial will determine if this same tES protocol improves memory in older adults (50-90 years old) who are healthy, and separately in older adults with mild cognitive impairment (MCI) or early stage Alzheimer's disease (AD). TES will be applied to the right temple and left arm for up to 40 minutes. MRI images, along with other measures, may be obtained before and after tES. If effective, this intervention may help to improve the quality of life for AD patients and their families.

To determine if adjunctive acupuncture acts as an AD treatment rather than a placebo, and identify if benefits are linked to shifts of the gut microbiota.

Dementia caused by Alzheimer's disease affects approximately 5.6 million adults over age 65, with costs expected to rise from $307 billion to $1.5 trillion over the next 30 years. Behavioral interventions have shown promise for mitigating neurodegeneration and cognitive impairments. Sleep is a modifiable health behavior that is critical for cognition and deteriorates with advancing age and Alzheimer's disease. Thus, it is a priority to examine whether improving sleep modifies Alzheimer's disease pathophysiology and cognitive function. Extant research suggests that deeper, more consolidated sleep is positively associated with memory and executive functions and networks that underlie these processes. Preliminary studies confirm that time-in-bed restriction interventions increase sleep efficiency and non-rapid eye movement slow-wave activity (SWA) and suggest that increases in SWA are associated with improved cognitive function. SWA reflects synaptic downscaling predominantly among prefrontal connections. Downscaling of prefrontal connections with the hippocampus during sleep may help to preserve the long-range connections that support memory and cognitive function. In pre-clinical Alzheimer's disease, hyperactivation of the hippocampus is thought to be excitotoxic and is shown to leave neurons vulnerable to further amyloid deposition. Synaptic downscaling through SWA may mitigate the progression of Alzheimer's disease through these pathways. The proposed study will behaviorally increase sleep depth (SWA) through four weeks of time-in-bed restriction in older adults characterized on amyloid deposition and multiple factors associated with Alzheimer's disease risk. This study will examine whether behaviorally enhanced SWA reduces hippocampal hyperactivation, leading to improved task-related prefrontal-hippocampal connectivity, plasma amyloid levels, and cognitive function. This research addresses whether a simple, feasible, and scalable behavioral sleep intervention improves functional neuroimaging indices of excitotoxicity, Alzheimer's pathophysiology, and cognitive performance.

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 purpose of this study is to measure efficacy and safety of three different doses of buntanetap compared with placebo in participants with mild to moderate Alzheimer's disease. Study details include: The double-blind treatment duration will include a screening period of up to 42 days followed by 12 weeks of treatment at home. The study duration will be 4-5 months. There will be 4 in-clinic visits and 1 phone call.

ALZN002-01 is a first-in-human, randomized, double-blind, placebo-controlled, parallel-group, phase 1/2a study of autologous amyloid beta mutant peptide-pulsed dendritic cells (ALZN002) in subjects with mild-to-moderate dementia of the Alzheimer's type.

SNP318 is developed to treat neurodegenerative diseases including Alzheimer's disease. In the current phase 1 study, the IP is tested in healthy volunteers, and the purpose is to investigate the safety, tolerability, and PK of single and multiple ascending oral doses of SNP318.

Alzheimer's disease (AD), the most common cause of dementia, is characterized by cognitive impairment, mental and behavioural abnormalities, and social dysfunction. Current treatments can only delay the progression of AD, not cure it completely. In vitro studies have shown that Astragalus has toxic effects such as anti-hypoxia injury of nerve cells, anti-free radical damage, anti-excitatory amino acids, etc. It can be used to expand cerebral vessels, increase cerebral blood flow, improve cerebral microcirculation, protect brain cells, and repair damaged brain cells. However, the clinical effects of add-on Astragalus in improving cognition in these patients remain unclear. Therefore, this pragmatic clinical trial aims to determine the efficacy and safety of add-on Astragalus in improving cognition in patients with AD

This is a phase II, multicenter, prospective, randomized controlled trial to treat patients with Alzheimer's disease (AD) using low-dose irradiation (LDIR). This study aims to evaluate the safety and efficacy of LDIR to whole brain in patients with AD and to determine the potentially applicable radiation dose.