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Active clinical trials for "Alzheimer Disease"

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Cognitive Neurology Unit Clinical Registry

Alzheimer Disease

A Prospective Comparative Study Of Monoclonal Antibodies For The Treatment Of Alzheimer's Disease

Recruiting19 enrollment criteria

Striatum and Hippocampus on Different Time Scales

Huntington DiseaseAlzheimer Disease

Time processing is fundamental to survival and goal reaching in humans. Different time scales (seconds, minutes, and beyond) are processed through specific cognitive processes involving different neural representations. It is generally agreed that time scale in seconds-to-minutes range named "interval timing" would be anatomically linked to the striatum. Indeed, it is possible to demonstrate a deficit of interval timing processes in patients suffering from striatal damage (Huntington's disease). However, recent findings show involvement of a second brain structure, the hippocampus, in interval timing processing in the minutes range, suggesting an interaction between the striatum and hippocampus. Presumably, patients with hippocampal damage (Alzheimer's disease) would specifically show a decrease in performance for this minutes-range time scale. This study aims to provide a better understanding of the role of the striatum in the treatment of time and its interactions with other brain structures such as the hippocampus. More specifically, it is unclear whether the striatum plays a platform role that would always be involved regardless of the time scale, as suggested by the unified model of time or whether different brain structures is solicited according to the time scale, as suggested by the modular system model. In order to elucidate these issues, a potential double dissociation between brain structures and time scales will be tested.

Recruiting57 enrollment criteria

Noninvasive Temporal Interference Stimulation: Modulating Associative Memory by Targeting Deep-brain...

Healthy AgingMemory Disorders in Old Age2 more

Alzheimer's disease and its preclinical stages are characterized by progressive neurodegenerative changes in the hippocampi and default mode network resulting in dysfunctions in episodic memory and its central part the associative memory. Associative memory allows for learning and remembering the relationship between unrelated items. Previous research suggests that non-invasive brain stimulation can influence associative memory but with the caveat of quite a small precision and relatively small effects due to the ability only influence superficial brain areas. Novel Brain stimulation techniques such as temporal interference stimulation (TIS) allow overcoming these caveats by allowing focal non-invasive deep brain stimulation. The main goal of this pilot clinical trial is to modulate associative memory among healthy seniors by influencing the cortico-hippocampal circuits using TIS. Secondly, the goal is to use functional magnetic resonance imaging (fMRI) and EEG to explore the neural correlates of TIS effects on brain networks and find biomarkers that allow predicting better response to brain stimulation.

Not yet recruiting11 enrollment criteria

A Study of Caregiver Connections Via Technology in Dementia

Caregiver StressDementia4 more

This research is being done to develop a unique matching process for caregivers of persons living with dementia, such as Alzheimer's disease, Lewy body dementia, frontotemporal degeneration, or other dementia syndromes. Dementia caregivers often assume greater caregiving burden than do non-dementia caregivers, and the caregiving duration tends to be longer. Many caregivers do not have the adequate support they need. Peer-to-peer support has been shown to improve quality of life, more engagement with services, improve caregiver health, and reduce hospitalizations in the person they are caring for. This study will help determine whether caregivers of persons with dementia would find a technology-based caregiver matching program valuable for the purpose of emotional support.

Recruiting10 enrollment criteria

Tau Networks in Psychotic Alzheimer's Disease

Alzheimer DiseaseAlzheimer Disease With Delusions1 more

This research project aims to understand the brain mechanisms behind the manifestation of psychotic symptoms in Alzheimer´s disease (AD), and nature of the unique relationship with tau pathology. Amongst the cognitive manifestations of psychosis are impairments related to frontal circuits (social cognition, working memory and executive function deficits). The investigator's previous work suggests a role of tau pathology (one of the hallmarks of AD neuropathology) in the manifestation of psychosis in AD. However, the cerebral mechanisms that underly this association remain poorly understood. The overarching aim of the study is is to investigate the mechanisms by which tau network pathology may promote the presentation of psychosis in AD.

Recruiting24 enrollment criteria

Investigating if a Stronger tDCS Intensity is More Effective for Improving Naming Ability in People...

Alzheimer Disease

There is currently little symptomatic therapy for Alzheimer's Disease (AD) and nothing effective for individuals with Frontotemporal dementia (FTD). However, neuromodulation with transcranial direct current stimulation (tDCS) has the potential to be a clinically effective therapy for both AD and FTD. The challenge now is to specify the parameters and conditions under which tDCS is most effective to transition from the laboratory to clinical medicine. tDCS studies typically report significant group effects despite the variability demonstrated among participants, with some showing clear, meaningful improvement, while others only show statistical improvement or none at all. These variable results may be related to the conventional stimulation intensity level of 2mA. The investigators predict that administering tDCS at 4.0 mA, a more significant number of participants would show a meaningful response, and those who improve at 2mA may improve even more from 4.0mA due to having a larger electric field produced. The investigators aim to test this hypothesis in people with Alzheimer's Disease.

Not yet recruiting6 enrollment criteria

SAFE at Home: A Service to Provide Social Engagement to Community-Dwelling Persons With Dementia...

Alzheimer DiseaseDementia4 more

The proposed Phase 1 study will involve initial development and evaluation of a new service called Social Activities For Engagement at Home or SAFE at Home (SaH). SaH will enable PWD to participate in videoconference-based group activities with their peers-i.e., other PWD. SaH sessions will be facilitated by highly trained "Engagement Professionals," who will be SaH staff members that have a background in recreation therapy, activity coordination, or a similar field. The proposed study has three Specific Aims: Aim 1. Develop an Alpha version of the SaH app, including app infrastructure and preliminary activity content for live group sessions, as well as staff training and coaching modules. Aim 2. Examine the app's acceptability/feasibility (by assessing attendance, session length, and engagement/affect). Aim 3. Examine satisfaction with the app by directly eliciting feedback from PWD and life enrichment staff.

Not yet recruiting11 enrollment criteria

Tau Protein and SV2a Imaging in Patients With Tau Protein-related Diseases

Alzheimer DiseaseProgressive Supranuclear Palsy1 more

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.

Recruiting19 enrollment criteria

Vanderbilt Memory and Aging Project

Alzheimer DiseaseAging7 more

This study will use an observational cohort to cross-sectionally and longitudinally relate vascular health to clinical, imaging, and biological markers of early Alzheimer's disease and cerebrovascular disease among aging adults. Adjusting for relevant clinical covariates, we will test the hypothesis that vascular health is associated with clinical, brain magnetic resonance imaging (MRI), neuropsychological, and cerebrospinal fluid markers of early cerebrovascular and Alzheimer's disease changes (i.e., prior to the onset of significant cognitive decline or dementia). Secondarily, we will examine medical and genetic factors that might mediate associations between vascular health and brain aging, such as inflammatory processes, insulin resistance, and genetic factors (e.g., APOE, a susceptibility risk factor for dementia). Findings will advance knowledge regarding the role that vascular health plays in brain aging.

Recruiting11 enrollment criteria

Brain Amyloid and Vascular Effects of Eicosapentaenoic Acid

Alzheimer's Disease

The number of Americans diagnosed with Alzheimer's disease (AD) is expected to triple by 2050. Compared to the general population, Veterans have a greater risk of AD, likely in part due to their increased incidence of traumatic brain injury, post-traumatic stress disorder, depression, and other vascular-related health issues. Based on available data, 423,000 new cases of AD are anticipated in Veterans by 2020. Thus, the discovery of effective therapies to prevent or delay the onset of AD in Veterans is critical. The goal of this study is to evaluate the efficacy of a purified form of the omega-3 fatty acid eicosapentaenoic acid (EPA) called icosapent ethyl (IPE), on improving brain blood flow, spinal fluid markers of AD pathology, and cognitive performance in middle-aged, cognitively-healthy Veterans with increased risk of AD. If IPE delays the onset of AD by even 5 years, the incidence of AD would be reduced by 50% in this population and could have a profound effect on Veteran quality of life and healthcare costs.

Active21 enrollment criteria
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