View clinical trials related to Alzheimer Disease.
Filter by:In clinical trials of preclinical pharmacodynamic studies, Flos Gossypii Flavonoids Tablet has been proved to significantly improve the learning and memory ability of Alzheimer's disease model. Phase I clinical tolerance test is to observe the human body's tolerance to Flos Gossypii Flavonoids Tablet, and provide a basis for the formulation of safe and reasonable dosing regimens for phase II clinical trials. Therefore, a Phase II clinical trial is now being conducted to explore the efficacy and safety of the Flos Gossypii Flavonoids Tablet in the treatment of mild to moderate Alzheimer's disease (marinus sea deficiency/brain collateral stasis syndrome). In this study, the researchers will use a multicenter, randomized, double-blind, placebo-controlled parallel method to recruit AD patients to confirm the efficacy and safety of Flos Gossypii Flavonoids Tablet. Confirmation of drug efficacy will be observed through changes in AD patients' general cognitive and different cognitive domain functions, daily living activities, and symptom severities.
The ALZLIGHT STAGE III Study is a continuation of the ALZLIGHT Pilot - Study on Safety, Feasibility and Neural Activation of Non-Invasive Light Therapy System. As with the first two stages, this study will examine whether entrainment of 40 Hz neural oscillation by novel 40 Hz Invisible Spectral Flicker is a potential therapy for Alzheimer's Disease. In order to examine this, 62 patients with mild to moderate Alzheimer's Disease will be recruited. The patients will be exposed to the Non-Invasive Light Therapy System for 1 hour a day for 6 months. The effect will be measured by a combination of electroencephalography, cognitive testing, functional magnetic resonance imaging, magnetic resonance spectroscopy and actigraphy.
Tau protein has been identified as one of the key pathological features of Tau proteinopathies, such as Alzheimer's disease (AD), progressive supranuclear palsy (PSP), frontotemporal dementia (FTD). Tau protein-targeted PET imaging can detect the amount and distribution of Tau protein deposition in human body, and has great research and application value in the diagnosis and evaluation of Tau protein disease. This study will be the first to introduce a complete quantitative, repeatable detection and analysis method in China. For the SV2a tracer [18F]MNI-1126, cross-sectional evaluation of its imaging in patients with Tau protein-related diseases and normal controls will be carried out. Later, longitudinal clinical symptoms and two tracers will be evaluated in patients with Tau protein-related diseases and normal controls.([18F]APN1607 and [18F]MNI1126) Imaging follow-up to explore longitudinal changes in brain Tau protein deposition and synaptic density in Tau protein-related diseases, thus providing support for future clinical drug trials using imaging biomarkers.
The Westlake Longevity Cohort (We-Longevity) is a prospective cohort study among centenarians, nonagenarians, senior citizens and their family members up to three generations living in Lishui, China. The primary aim of this cohort is to characterize the multi-omics molecular characteristics of healthy longevity and their dynamic trajectories. Another aim of We-Longevity is to investigate the association of dietary and lifestyle with the multi-omics molecular characteristics of healthy longevity, and to facilitate the development of personalized nutritional/lifestyle recommendation for the public.
Currently, Alzheimer's disease (AD) has no cure putting prevention-strategies in the forefront for impeding the public health and personal consequences of this devastating disease. Seven major potentially modifiable risk factors show consistent association with AD (midlife type 2 diabetes [T2D], midlife hypertension, midlife obesity, physical inactivity, depression, smoking, and low educational attainment), with combined population-attributable risk of 30%1. A recent extensive literature review of randomized control trials on single lifestyle interventions for AD yielded negative results. The multidomain preDIVA2,3 (Prevention of Dementia by Intensive Vascular Care) and MAPT4,5 (Multidomain Alzheimer Prevention Trial) studies raised concerns regarding the multidomain approach. The multidomain lifestyle model approach of the FINGER6,7 study (Finnish Geriatric Intervention Study to Prevent Cognitive Impairment and Disability) brought some optimism after it presented positive results; several replication trials around the world have been launched8. However, 1) all trials focus on the elderly, 2) the impact of midlife risk factors on dementia risk is stronger than late life, and 3) the neurodegenerative changes in AD begin decades before its clinical manifestations9. A recent study showed that 2 or more cardiovascular risk factors in midlife (but not late life) predicted amyloid aggregation10. Main goals: To examine the feasibility and provide pilot data on effectiveness of a novel "real-life" personalized 18-months intervention for prevention of cognitive decline in middle-aged individuals (age 40-65-year-old) at high AD risk due to AD parental family history. We will implement an approach "diary-monitoring" ("Risk factors log" which will filled daily by participants, using the REDCap (Research Electronic Data Capture) software's survey) with study team guidance. We hypothesize that daily risk-factors documentation in personal "Risk factors log" will increase participant's engagement in the intervention and will enable the study team to accumulate health information, in order to improve support and counselling for improvement of risk factors. In addition to examining the feasibility of our approach, we will explore its effectiveness in both improving risk factors values, as well as improving cognitive function by comparing the HAPPCAP-AD intervention group to "control group". Last, our study will lay the foundations for a strong long-term large-scale preventive intervention in the future. We will compare this group to a partially passive control.
Alzheimer's disease is characterized by progressive cognitive decline, and cognition is associated with cerebral concussion. Previous studies have found reduced gamma energy in the brain of AD patients. Therefore, modulation of gamma activity in AD patients may help improve cognitive function. The purpose of this study was to investigate the safety and tolerability of transcranial alternating current stimulation (tACS) combined with 40Hz sound stimulation in patients with mild to moderate Alzheimer's disease (AD); to compare the effects of tACS combined with sound stimulation, tACS, and 40Hz sound stimulation on cognition in AD patients; and the effects of tACS combined with sound stimulation, tACS, and 40Hz sound stimulation on brain network connectivity in AD patients before and after tACS.
As of today, there is no FDA-approved treatment for agitation in AD. Hence, it is still considered an unmet need. Sporadic observation in healthy or diagnosed individuals indicated that cannabis products, in particular, THC have calming and anti-anxiety effects. These observations are supported by basic science data as well as animal experiments. SCI -110 is a combination of (1) dronabinol, the active ingredient in an FDA-approved synthetic analog of tetrahydrocannabinol, the psychoactive molecule in the cannabis plant, and (2) palmitoylethanolamide. In the present study, the starting daily dose for all subjects is 2.5 mg dronabinol and 800 mg PEA and will be gradually increased (every 3 days an addition of 2.5 mg dronabinol per day, with no change in the PEA dose) to a maximum of 12.5 mg Dronebinol and 800 mg PEA per day. The study product will be given orally, twice daily, to add-on the medical treatment. Study Duration per patient is up to 64 days: a. screening (3-21 days); b. treatment phase: (1) titration (15-23 days) of dronabinol from 2.5 to 12.5 mg or up to the maximal subject's tolerated dose (2) Stabilization phase (10 days) until end of treatment on the highest subject's daily tolerated dose. c. follow-up phase (7 days) - until the end-of-study. During the study, the tolerability of the drug, its safety (vital signs, physical examinations, blood, and urine tests and side effects follow-up) as well as changes in subject's condition (using CMAI, MMSE, SIB-8 questionnaires), appetite and sleep quality (SDI) will be followed.
The purpose of the present study is to investigate the effectiveness of mental imagery (MI) in subjects with early stage of dementia. The hypothesis of the study is that MI will have a beneficial effect in motor, cognitive and emotional state in this clinical population.
Progressive age-related cognitive deficits occurring in both AD and DS have been connected to the degeneration of several neuronal populations, but mechanisms are not fully elucidated. The most consistent neuronal losses throughout the progression of AD are seen in cholinergic neurons where these losses negatively affect cognition, particularly in attention, learning, and memory formation. Evidence of reduced cholinergic integrity in DS is largely limited to animal models and post-mortem human data. The investigators propose to use molecular, functional, and structural biomarkers to assess the cholinergic integrity in adults with DS. The investigators anticipate using the data gathered in this pilot study to inform future study designs to determine AD risk stratification in DS by identifying individuals who show an accelerated decline in cholinergic integrity that correlates with cognitive and neurobehavioral changes. Also, our cholinergic biomarkers may identify whether individuals with DS are likely to respond to pro-cholinergic interventions, including the novel cholinergic modulators that are being developed to enhance cholinergic-sensitive cognitive functioning. The investigators anticipate using the data gathered here to inform future treatment studies in TRC-DS and beyond where novel cholinergic treatments may offer opportunities for early intervention in DS and be complementary to disease-modifying approaches such as anti-amyloid treatments.
The purpose of this study is to evaluate the safety, tolerability, pharmacodynamics (PD) and pharmacokinetics (PK) of a single dose and multiple doses of ALN-APP administered by intrathecal (IT) injection in adult patients with early-onset Alzheimer's Disease (EOAD). Maximum treatment duration for Part A: single dose. Maximum treatment duration for Part B: 12 months.