View clinical trials related to Alzheimer Disease.
Filter by:This study aims to provide clinical validation of EyeQuant, a fully automated retinal image analysis system for computation of vascular biomarkers indicative of cognitive disorders, using retinal fundus photographs collected from patients with mild cognitive impairment, Alzheimer's disease, and vascular dementia.
The study aims to compare tau targeted radiotracers [18F]GTP1 and [18F]PI-2620 or [18F]MK-6240 in subjects with normal cognition or prodromal to moderate Alzheimer's disease (AD).
The Infinitome Program from Omniscient has the ability to identify abnormal brain networks or connectomes using resting state functional MRI (rs-fMRI). This technology, which visualizes brain networks in three dimensions, was originally developed to ensure neurosurgeons avoid inadvertently lesioning cognitively eloquent brain regions during surgical operations. The potential of Infinitome in identifying connectome dysfunction for neurodegenerative diseases such as Alzheimer's disease has yet to be explored. This diagnostic technique may play a critical role for identifying disease brain networks that may benefit from targeted interventions in clinical trials.
Focal repetitive transcranial magnetic stimulation (rTMS) has been applied to improve cognition in Alzheimer's disease (AD) with conflicting results. In this study we aimed to explore feasibility, safety and efficacy of excitatory rTMS of bilateral DLPFC applied with H-coil in AD in a pilot randomized, placebo-controlled, double-blind study.
Alzheimer's disease (AD) is the most common cause of dementia and its prevalence will multiply in the coming years, so it is urgent to establish preventive and therapeutic measures. AD it is characterized by cerebrovascular and parenchymal accumulation of protein deposits enriched in amyloid-beta (Aβ) as a consequence of alterations of the blood-brain barrier. More than 60% of plasma Aβ is associated with triglyceride-rich lipoproteins (TRL), being higher in subjects with AD. Microglia act as resident macrophages and play a crucial role in most neuropathologies, since it is activated after homeostasis impairment in the brain, and surrounds amyloid plaques in patients with AD. As a result of microglial activation, a large number of pro-inflammatory markers are released, mediated by alterations in the redox state, through the generation of ROS by the complex NADPH oxidase. In a previous study, the investigators demonstrated in BV-2 cells that artificial TRL are capable of activating microglia and trigger an inflammatory process. In addition, the investigators showed that some of lipophilic minor components of pomace olive oil simultaneously modulate oxidative stress and the inflammatory response in microglia. The investigators suggested that these results should be replicated in humans after consumption of pomace olive oil. Therefore, in the present study we formulate the hypothesis that human TRL are capable of activating microglia and that such activation can be attenuated when those particles are generated after consumption of pomace olive oil. The results of the study would lay the foundation for the start of clinical trials demonstrating the effect of pomace oil in reducing the risk of development and progression of AD.
The GAITRite® system is an instrumented with resistive pressure sensors gait analyzer. It was first validate in 2001 against paper-and-pencil (intraclass correlation coefficient [ICC] > 95%) for spatial measures and against video-based (ICC > 93%) for temporal measures, and was thus a reliable tools to measure step lengths and times in both walkway center and left-of-center measurements. It was considered as one of the gold standards in gait analyses. This gait analyze system may distinguish prospectively faller and non-faller older adults, but it can detect spatial, temporal, and spatiotemporal measures of gait and greater variability of gait parameters which were associated with and predictive of both global- and domain-specific cognitive decline. Moreover, spatiotemporal gait parameters analyzed using GAITRite® were more disturbed in the advanced stages of dementia, and more affected in the non-AD dementia than in AD suggesting that quantitative gait parameters could be used as a surrogate marker for improving the diagnosis of dementia. Nevertheless, GAITRite® is not a unique system and it comprises different walkways. One of these technologies was a roll-up system (platinum plus classic, RE, Basic and Safari), and the other was a system composed by a changeable association of plates (CIRFACE). In order to ensure a good comparability between studies using these different walkways, it appears important to compare the performances of these walkways in gait analysis. Thus, the main aim of this study was to compare the performances in gait analyze between the GAITRite® platinum plus classic and the GAITRite® CIRFACE among older adults. Secondary aims were to compare these parameters among patients with cognitive complaint, minor or major neurocognitive disorder (NCD) related to Alzheimer disease.
There is growing need for to provide high quality care for persons living with dementia (PLWD) and provide support for care partners in the primary care setting. The Care Ecosystem model is a telephone-based dementia care program that provides standardized, proactive, personalized, and scalable support and education for care partners. The Care Ecosystem model has demonstrated an improvement in patient quality of life, reduced unnecessary healthcare expenditures, and a decrease in care partner burden and depression. In this pilot the investigators will assess the feasibility of implementing and measuring outcomes of an adapted Care Ecosystem training model for primary care nurse managers serving a diverse panel of PLWD and their care partners in primary care practices participating in the Mass General Brigham healthcare system's Integrated Care Management Program in Boston, MA. The study team will leverage the Mass General Brigham electronic medical record to determine the feasibility of collecting the primary clinical outcome defined as emergency department visits among the PLWD cared for by the primary care practices. The investigative team will also assess the feasibility of implementation, number of contacts between nurse care managers and care partners, and documented advance care planning.
Transcranial magnetic stimulation (TMS) is a noninvasive brain stimulation technique that is increasingly used for a growing number of research and clinical applications.Typically, this transient magnetic field is focally applied with a figure-of-eight coil that is carefully placed on the surface of the scalp over a targeted stimulation site. Patterned repetitive TMS (rTMS), such as theta burst stimulation (TBS) can produce long-lasting effects on neural activity and behavior beyond the stimulation period (Chou et al., 2015a; Fitzgerald et al., 2006). In general, high frequency (> 5 Hz) rTMS and its newer version, intermittent theta burst stimulation (iTBS), facilitate cortical excitability, whereas low frequency (about 1 Hz) rTMS and continuous theta burst stimulation contribute to opposite effects (Pascual-Leone et al., 2000; Huang et al., 2005; Wassermann and Zimmermann, 2012).Careful manipulation of the parameters comprising these patterned rTMS pulse trains can induce neuroplastic changes that resemble either long-term potentiation (LTP) or depression (Chen et al., 1997; Pascual-Leone et al., 1994). Early studies targeting the motor cortex helped elucidate which rTMS parameters promote particular responses and their neurophysiological underpinnings (Klomjai et al., 2015). In recent years, rTMS has been closely investigated to evaluate its potential to modulate cognitive functions in Alzheimer'sdisease (AD) and mild cognitive impairment (MCI). As compared to conventional excitatory rTMS protocols, iTBS leads to comparable effects with similar number of pulses but considerable shorter duration and lower intensity of stimulation (Bakker et al., 2015; Rossi, Hallett, Rossini, Pascual-Leone, & Safety, 2009). Recent literature also suggest that TBS has lower rates of reported adverse event (AE) compared to rTMS (Najib & Horvath, 2014). Therefore, iTBS is assumed to modulate cognitive function in people with cognitive impairments.
Individuals with dementia present with changes in behaviors throughout the continuum of cognitive decline. Environmental features may be influential in behavioral regulation. The purpose of this study is to assess the feasibility of environmental design protocols in older adults with dementia and their caregivers. Thirty subjects with moderate to severe Alzheimer's disease as primary dementia type, and their caregivers, will be randomly assigned to one of three arms: standard care; standard environmental design protocol; or personalized environmental design protocol.
The purpose of the READyR study (originally called SHARE-sense) is to redevelop and test an intervention program to remotely assess for changing dementia-related care needs.