View clinical trials related to Alzheimer Disease, Early Onset.
Filter by:The literature suggests a strong association between amyloid accumulation and gamma alterations, emerging gamma activity as a biomarker candidate for Alzheimer's pathology. The present study aims to investigate resting-state gamma activity changes in Cerebrospinal fluid (CSF)-proven early-onset Alzheimer's disease (EOAD) patients with a holistic approach that employs structural and functional brain neuroimaging techniques, and neuropsychological aspects.
The study was conducted with 44 patients who were diagnosed with mild-to-moderate Alzheimer's Disease. Participants were divided into 2 groups intervention group and the control group. The intervention group was administered 20 grams of black mulberry concentrate per day for 12 weeks and the control group received no intervention thorough the study. Cognitive functions, antioxidant capacity, and inflammation markers were evaluated at the baseline and at the end of the 12 weeks.
The objective of this qualitative study is to create a better understanding of patients' mental model of health data engagement interfaces and tools (such as Dynamic Consent). The researchers will focus especially on those people who - plausibly - require adjusted communication particularities and interaction modalities due to a cognitive impairment stemming from a neurodegenerative disease. Taking into account the specific characteristics of patients with dementia, the goal of this study is to investigate how to communicate according to patients' personal skills and capabilities and identify both the proper support mechanisms for engagement 2.0 consent as well as feedback mechanisms (return of research results). Through a focus group & interview setup, this study will discern design requirements and propose design recommendations for the (future) development of health data engagement interfaces.
The objective of this project is to conduct research and a pilot study to demonstrate the potential clinical impact and technical feasibility of a socially-assistive robot, called Ryan Companionbot (hereafter Ryan), for life improvement and intervention of persons with early stage Alzheimer's disease (AD) and AD related dementia (ADRD). Earlier phases of this project demonstrated the feasibility and scalability of using emotion recognition technology based on cutting-edge natural language processing and artificial intelligence technologies to improve mood and lessen depression symptoms of persons with early stage AD/ADRD. In this phase, the investigators will utilize an aesthetically pleasing updated Ryan (V2.0) with emotion recognition and natural language processing for enhanced conversations to address the needs of the individuals with AD/ADRD and their healthcare providers as well as to test the effectiveness of Ryan by comparing participants pre- and post-treatment by analyzing several blood biomarkers related to AD/ADRD and depression. The investigators will recruit thirty participants from local senior living facilities based on their cognitive performance as assessed by the Saint Louis University Mental Status (SLUMS) score. SLUMS is commonly used as a simple screening/assessment test in senior living facilities. As part of the recruitment, the investigators will show prospective participants a video recording of a previous senior volunteer interacting with Ryan to give new recruits an idea of the socially assistive robot technology.
The purpose of this study (Bio-Hermes) is to develop a blood, digital, and brain amyloid PET scan biomarker database that can be used to determine whether a meaningful relationship exists between digital tests, blood amyloid-beta, p-tau, and neurofilament biomarker levels and amyloid-beta levels identified through brain amyloid PET images. Blood collected will also be genetically sequenced to gain insights about genes and brain amyloid. The Bio-Hermes study will include 1,000 volunteers over the age of 60 screened for Preclinical Alzheimer's Disease, Prodromal AD, or Mild Dementia AD, and includes an endpoint enrollment requirement of 200 participants from underrepresented minority populations.
A Phase I, Single Center, Randomized, Double-blind, Placebo-controlled, Single Ascending Dose, Pharmacokinetic and Safety Study of PTl-125 in Healthy Volunteers
This will be a two-center, placebo controlled blinded clinical trial to evaluate the safety and tolerability of efavirenz (EFV) in 36 clinically stable subjects with mild cognitive impairment/early dementia due to Alzheimer's Disease (AD) age ≥55 years. Of these 36 total subjects, 18 will be recruited by MGH and 18 will be recruited by UH. A subset of the subjects at MGH only will also participate in a Stable Isotope Labeling Kinetics (SILK) protocol with deuterated water (a nonhazardous substance), designed to more precisely measure EFV effects on CNS cholesterol turnover. Each respective site's 18 total recruited individuals will be divided into 3 groups: these 3 groups will represent two particular dosages of EFV and a placebo group, respectively. In a double-blind fashion, participants will be receiving either a capsule of EFV or placebo daily for 20 weeks. At MGH only, 12 individuals (4 from each of the two EFV groups and placebo) will participate in the unique "heavy water" SILK protocol assessing the kinetics of deuterium enrichment in plasma 24-hydroxycholesterol (24-OHC). All study participants at both sites will have their blood, cerebral spinal fluid, and urine analyzed at various points throughout the study. All participants will have their DNA genotyped for APOE isoforms (E2, E3 or E4) and single nucleotide polymorphisms (SNPs) in CYP46A1 (rs754203) and CYP2B6 (rs3745274) to be used for post-hoc analysis.
Alzheimer disease (AD) is a neurodegenerative disorder with a poorly understood pathology. It is an irreversible progressive brain disease that slowly deteriorates memory, thinking and behavior. It affects the elderly population and is also hereditary. The incidence doubles with every decade after sixty with no signs of leveling off. More than 35 million people Worldwide, including 5.5 million living in the United States, suffer from AD. As the United States population ages, it is expected that the number of people with AD will increase, reaching 13.2 to 16.0 million by the year 2050. The cost of care for patients with AD in the United States is expected to rise as well, from $172 billion a year in 2010 to a trillion dollars a year by 2050. Although the exact etiopathology is not known there are several lines of evidence that suggest that metabolic and inflammatory features are important. It also has been known for many years that the Blood Brain Barrier (BBB) of Alzheimer's patients allow more harmful particles to cross into the brain than the BBBs of those without the disease do. It's known that this barrier, which is regulating transfer of molecules between the brain and blood, and vice versa blood and brain, can become leaky and dysfunctional (in particular capillaries dysfunction) and lead to subsequent problems likely contributing to onset and progression of dementia. This protocol will explore several of the most promising putative factors that cause AD.
This study aims to determine factors related to diagnosis delay for patients with young onset dementia (first symptoms before 60 years old) who live in North of France.
Current diagnosis of Alzheimer disease is made by clinical, neuropsychological, and neuroimaging assessments. Routine structural neuroimaging evaluation is based on nonspecific features, such as atrophy, which is a late feature in the progression of the disease. Therefore, developing new approaches for early and specific recognition of Alzheimer disease at the prodromal stages is of crucial importance. In the present study the investigators would like to examine if combined treatment with TMS and cognitive training (CoTra) for several weeks can produce a sustained improvement in cognitive and behavioral symptomatology of Alzheimer's disease (AD) patients. A number of in vivo neuroimaging techniques, which can be used to reliably and noninvasively assess aspects of neuroanatomy, chemistry, physiology, and pathology, hold promise.