View clinical trials related to Alzheimer Disease.
Filter by:This study explores the acute exercise effect on neurocognitive function and also its potential moderators in an exercise setting and Apolipoprotein E (APOE) genetic risk.
This clinical trial is focused on determining whether biological signatures of target engagement by a Centella asiatica water extract product administered orally for 6 weeks can be measured in comparison to placebo. This study will also assess the safety and tolerability of the Centella asiatica water extract product.
The STAREE-Mind imaging sub-study will examine the effect of statin treatment over a 4-year period, compared with placebo, on markers of brain health.
The proposed project will assess long-term changes to health/lifestyle, advanced planning, and research engagement that Black and White patients with Amnestic Mild Cognitive Impairment (aMCI) make following disclosure of positron emission tomography-based amyloid and tau burden and associated risk of conversion to Dementia-Alzheimer's Type. Healthcare access will be explored as potential barrier to or facilitator of behavior change.
The aim of this study is to identify transcriptomic biomarkers in blood cells to diagnose early cognitive impairment. This would allow preventing the development of severe pathologies, such as Alzheimer Disease. In addition, this project will analyse the influence of adiposity, obesity, nutritional habits and physical activity on cognition.
Inflammation occurs in many brain diseases including Alzheimer's disease. In Alzheimer's disease, amyloid starts accumulating decades before the start of forgetfulness. Basic scientists have reported that inflammation but not amyloid is linked to forgetfulness. When people pinch a finger, it gets swollen. Similar changes occur in brain from various causes. New medications are under development to help healing and prevent permanent damages in the brain. When people pinch a finger, they can check if the injury is healing or getting worse by watching. Investigators can watch inside of the brain using a special camera called positron emission tomography (PET). It is currently possible to watch inflammation in the brain by taking pictures of a molecule called translocator protein (TSPO). But the problem is that by imaging TSPO, investigators can catch changes in more than one kind of cells. The information is not specific to each cell type. Such vague information is not useful to monitor the effect of new medications for inflammation. This proposal attempts to develop a novel method to capture changes in each of two major players in inflammation, microglia and astrocytes. To do so, investigators will take selective pictures of one cell type by using a novel imaging agent for PET. Investigators will also take PET pictures of TSPO. Investigators will process these two kinds of PET pictures using advanced mathematical methods and extract specific information on microglia and astrocytes. Our novel method will be useful to monitor new therapies to treat inflammation in brain.
The aim of this study is to find out whether a new image analysis technique called Cortical Disarray Measurement (CDM) could be used to help better diagnose Alzheimer's disease. This study will see whether changes on CDM can be used to identify Alzheimer's disease from a group of people living with memory and thinking problems. The study will also explore how CDM relates to changes in memory or thinking over time.
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
The purposes of this study were to investigate the relationship between trunk control and balance, gait, functional mobility, and fear of falling in people with Alzheimer's disease and to compare trunk control, balance, gait, functional mobility, and fear of falling in people with Alzheimer's disease and healthy older adults. Balance, an essential motor skill necessary to perform both static and dynamic everyday activities with stability and security, is impaired in people with Alzheimer's disease when compared to cognitively preserved elderlies. Gait and functional mobility disorders are also observed in people with Alzheimer's disease from the early period of the disease. People with Alzheimer's disease tend to fall more often and are more seriously injured from falls than cognitively intact older adults. The annual incidence rate for falling is 60% to 80% for older adults with Alzheimer's disease, over twice the incidence of age-matched cognitively intact older adults. Trunk control is shown among the most important factors that ensure the balance and walking of the individual in different environments and conditions during functional activities. Optimal trunk control relies on adequate somatosensory, motor, and musculoskeletal systems, which are frequently compromised in people with Alzheimer's disease. For this reason, the investigators think that trunk control may be affected in people with Alzheimer's disease compared to healthy older adults and may be related to balance, gait, functional mobility and fear of falling.
A randomized controlled clinical study will be conducted in Xuanwu Hospital of Capital Medical University. This study initially explore the effect of selective vagus nerve(C fiber) stimulation on mild-to-moderate AD patients, in order to regulate the activity of the locus coeruleus-norepinephrine network, and to observe the improvement of cognitive function and memory function. We aim to evaluate the efficacy and safety of minimally invasive selective vagus nerve stimulation in the treatment of mild-to-moderate AD patients, to clarify the effective mechanism, and to provide an effective clinical treatment strategy.