View clinical trials related to Alzheimer Disease.
Filter by:The DETECT-AD study (stands for "Digital Evaluations and Technologies Enabling Clinical Translation for Alzheimer's Disease") is a new study designed to improve clinical trials for early Alzheimer's disease. DETECT-AD uses specialized home-based digital devices (electronic scale, electronic pill box, under-the-mattress sleep sensor, motion activity sensors, wrist watch activity tracker, driving sensor, and computer software) to see if the devices will improve clinical trial assessments. This 36- month-long study will simulate a clinical trial to determine how well the home system detects clinically meaningful changes. Participants in DETECT will receive a brain scan to assess their risk for developing Alzheimer's Disease. After the scan, homes will be outfitted with the devices*. Participants will be asked to simply go about their daily routines while data is collected in the background by the digital devices. The scientists will see if there is a change in the digital assessments in four key areas of life activity: mobility (walking speed), cognition (computer use), sleep (sleep times), and socialization (time spent out of home). Participants will be asked to take a daily multivitamin as a study 'drug' to mimic clinical trial conditions. Using these methods, the DETECT study will produce outcome measures that reflect real-world everyday function. Establishing the superiority of these novel methods compared to conventional methods (for example, exams in a clinic) will provide a potential new pathway for speeding the development of muchneeded new treatments for Alzheimer's
This study will compare the discriminative power of [18F]-SynVesT-1 PET and the standard-of-care [18F]-FDG PET in different cognitive disorders (Alzheimer's disease, Frontotemporal degeneration, dementia with Lewy bodies and late-life psychiatric disorders). Moreover, changes in [18F]-SynVesT-1 PET will be evaluated as well as their correlation with specific symptomatology.
By doing this study, researchers hope to see if creatine monohydrate is a helpful treatment for people with Alzheimer's disease.
The purpose of this study is to determine whether combination of donepezil, a cholinesterase inhibitor, with choline alfoscerate has a more favourable clinical profile than monotherapy with donepezil alone.
In a remotely delivered nationwide pilot study, we will be examining a novel 8-week heart rate variability biofeedback (HRVB) intervention vs music listening control (MLC) for 30 family caregivers 18 years and older (FCGs) of Alzheimer's disease (AD) (and related dementias: ADRD) patients to examine feasibility (acceptability/adherence, satisfaction) and direction of change in caregiver burden, stress, resilience, anxiety, self-compassion, and relationship quality.
Currently, there are an estimated 47 million people with dementia worldwide, with approximately 10 million new cases diagnosed each year. This figure is expected to triple to 130 million in 2050. In France, the number of dementia cases is estimated at 754,000 and could reach 1,813,000 in 2050. In a recent literature review, researchers highlighted the many benefits of horticultural therapy and garden environments for people with Alzheimer's or cognitive disorders. They include: alleviating pain, improving attention, decreasing stress, relieving agitation, decreasing the use of medications, such as antipsychotics, as well as reducing falls. Gardening offers a non-pharmacological approach to achieving these goals and could improve the quality of life for people with Alzheimer's disease or another dementia. As part of a care solution, support services that include social activities, such as gardening, reduce the need for more intrusive and expensive care solutions. The objective of this research is to evaluate the impact of horticultural
The purpose of this project is to investigate the role of both neural inflammation and pre-existing neurodegenerative pathology in the risk and pathogenesis of post-operative cognitive dysfunction (POCD). To achieve this goal, the investigators will combine blood and cerebrospinal fluid (CSF) sampling, standardized cognitive tests, and dynamic neurophysiological markers of cortical network dysfunction in the form of event-related potentials (ERPs), to assess the link between neurodegeneration and neuroinflammation in the pathogenesis of POCD.
Novel blood-based biomarkers of Alzheimer's disease (AD), such as plasma levels of tau phosphorylated at threonine 181 (p-tau181), have shown great promise in detecting early AD pathology. While current studies point to this biomarker as having great clinical utility, one necessary step before clinical implementation is developing safe and effective methods for disclosure of results. Past risk disclosure studies have shown that disclosing risk for AD based on genetics or amyloid status is safe, but these studies have largely focused on cognitively unimpaired individuals. This study seeks to develop comprehensible educational materials to aid risk disclosure and examine the effect of risk disclosure based on plasma p-tau181 results in a group of participants with mild cognitive impairment (MCI) at imminent risk of converting to dementia. First, educational materials will be developed in collaboration with health communication experts and then refined in focus groups made up of individuals with MCI. Educational materials will be analyzed on several key reading and comprehensibility metrics and will include personalized risk estimate based on a well-accepted risk algorithm (Cullen, et al., 2021). Next, these educational materials will be utilized to disclose risk in a randomized controlled trial with an active control arm receiving disclosure based on age, sex, and cognitive status (based on Mini-Mental State Examination), meant to mimic common methods of clinical diagnostic and prognostic decision making, and an intervention arm receiving disclosure based on the above factors plus plasma p-tau181 results. Outcomes will include measures of comprehension and psychological well-being (anxiety, depression, hopelessness, and distress) and will be assessed immediately after risk disclosure and again at six-month follow-up. It is hypothesized that risk disclosure based on plasma p-tau181 is not more psychologically harmful or less comprehensible than disclosure based on demographic factors and MMSE. This pilot study will provide a necessary step towards moving plasma p-tau biomarkers towards safe clinical implementation and will develop educational materials that can be utilized in future studies and clinical practice.
This is a first in human study that will assess the safety and diagnostic performance of [18F]RP-115 (fluorine-18 labeled RP115), a positron emission tomography (PET) agent. This agent has the potential to identify the early changes that occur in the brains of patients with Alzheimer's disease (AD) and frontotemporal dementia (FTD).
The primary objective of the Vanderbilt Alzheimer's Disease Research Center (VADRC) is to provide local and national researchers with access to a well-characterized and diverse clinical cohort, including participant referrals, biosamples, clinical data, and neuroimaging data. The VADRC Clinical Core will create an infrastructure to support research efforts of both local and national investigator studies to develop early detection, prevention, and treatment strategies for Alzheimer's disease. The Clinical Core intends to enroll up to 1000 participants, including individuals who are cognitively unimpaired, have mild cognitive impairment, or have Alzheimer's disease. This cohort of about 1000 participants will be called the Tennessee Alzheimer's Project. Participants will be seen annually for comprehensive clinical characterization and then referred to other studies to enhance Alzheimer's disease research activities.