View clinical trials related to Alzheimer Disease.
Filter by:This is a 24-week, randomized, double-blind, placebo-controlled study of the effect of thalidomide and placebo on CSF (cerebral spinal fluid) and plasma biomarkers in patients with mild to moderate Alzheimer's disease. This study will evaluate the effects of 24 weeks of treatment with Thalidomide on plasma biomarkers.
Alzheimer's disease (AD) is usually associated with aging, age being the principal identified risk factor. However, younger subjects also develop AD and the prevalence of early onset AD is unknown. It is estimated that about 30 000 subjects develop symptoms of AD before the age of 65 in France. There is evidence that early onset AD differs from AD in older patients. In particular, clinical and neuroimaging studies suggest early involvement of neocortical brain regions and their functions in early onset AD, while mediotemporal areas and memory might be more involved in late onset AD. These differences could partly explain the atypical clinical and imaging features of younger patients, the diagnostic difficulties in these patients and the specific problems related to medical care of this age group. The present study uses a multidisciplinary approach with longitudinal followup in order to establish the impact of age on the clinical and neuroimaging picture of sporadic AD in a multicentric setting. Another aim of the project is to describe for each age group, and in particular for the younger patient group, the functional impact of disability in everyday life on both, patients and caregivers.
The purpose of this study is to develop small molecule radio-labeled probes of beta-amyloid, to be used with positron emission tomography (PET) for early detection and treatment monitoring of Alzheimer disease (AD). The study hypothesis is that PET imaging of small molecule probes, in the form of novel fluorescent dyes with radioactive labels, will demonstrate cerebral patterns in patients with AD that are distinct from those of age-matched persons who are cognitively intact.
The purpose of this study is to develop small molecule radio-labeled probes of beta-amyloid, to be used with positron emission tomography (PET) for early detection and treatment monitoring of Alzheimer disease (AD). The study hypothesis is that PET imaging of small molecule probes, in the form of novel fluorescent dyes with radioactive labels, will demonstrate cerebral patterns in patients with AD that are distinct from those of age-matched persons who are cognitively intact.
The purpose of this study is to begin the process of validating fMRI (functional magnetic resonance imaging) as a biomarker for use in clinical trials and longitudinal studies of clinical progression in mild cognitive impairment (MCI) and Alzheimer's disease (AD).
The purpose of this study is to determine whether asymptomatic older individuals with high amyloid burden will subsequently manifest cognitive impairment and eventually progress to clinical Alzheimer's Disease (AD).
Alzheimer's Disease (AD) is the most common cause of dementia for which no treatment has shown consistent efficacy to stop or slow down the disease. Recent report of enhancement of memory abilities by bilateral chronic deep brain stimulation (DBS) of the fornix in the hypothalamus suggests that neuromodulation of circuits involved in memory processes may have therapeutic implications in AD patients with memory decline. The primary objectives of this prospective, non-controlled, pilot study are to evaluate the feasibility and safety of DBS in AD patients with mild cognitive and memory impairment, and to evaluate the efficacy of DBS to slow down or stabilize this decline. Five patients with AD (DSM IV) diagnosed less than two years, with mild cognitive decline (MMSE 20-24), and specific impairment of episodic memory will be included in a 2-year period. The evaluation criteria for feasibility will be the proportion of patients undergoing the procedure, chronic stimulation and evaluation process without adverse event (AE). Efficacy will be evaluated using numerous cognitive and memory testing. Changes in behavioral and mood scales, and changes in hypothalamic functions (clinical, biological and hormonal assessment) will evaluate safety and tolerance. Clinical, neuro-psychological, biological and imaging assessment will be performed 3 and one month before and 3, 6, 12 and 24 months after surgery. Bilateral electrodes (Medtronic 3389) will be implanted, by MR-guided frame-based stereotaxy, in the hypothalamic part of the fornix, and then connected to the generator (Kinetra, Medtronic). Chronic high-frequency stimulation will be delivered immediately after surgery. The investigators expect to slow down, or to stabilize the spontaneous decline of MMSE and ADAS scores after 6, 12 and 24 months of stimulation. In case of efficacy, DBS might offer to AD patient the possibility to slow down/stabilize their symptoms, which no other treatment can currently offer, and to increase their quality of life.
The purpose of this study is to identify potential biomarkers that may predict the development of Alzheimer's disease in people who carry an Alzheimer's mutation.
The trial will examine whether pharmacological treatment with donepezil, memantine or combination of memantine and donepezil is any better than a placebo (dummy) treatment in people with Alzheimer's disease who have reached the moderate to severe stage of illness. Using a double blind design, where neither the investigators nor participants know who is receiving which treatment, participants will be randomly assigned to one of these four treatment groups (donepezil and memantine, memantine only, donepezil only or placebo). In order to keep both the investigators and participants blind to drug allocation a double dummy design will be necessary. This means that each participant will receive 2 treatments − either an active form or placebo of each of the 2 study drugs. Hypotheses are: 1. Patients with Alzheimer's disease (AD) who continue donepezil beyond the point of transition from moderate to severe dementia continue to show significantly less decline on ratings of cognitive function and activities of daily living over the following 12 months than those discontinuing donepezil. 2. Patients with AD who change to memantine therapy in place of donepezil at the point of transition from moderate to severe dementia show significantly smaller decline on ratings of cognitive function and activities of daily living over the following 12 months than those who receive placebo. 3. Patients given the combination of memantine and donepezil at the point of transition from moderate to severe dementia show significant additive or synergistic benefits on measures of activities of daily living and cognitive function after 12 months compared to those patients continuing on either drug as a single treatment.
The primary objective of this trial is to assess the ability of Transcranial Magnetic Stimulation with H2 coil to prefrontal and parieto-temporal cortex to improve cognitive performance in patients with Alzheimer's disease which received drug treatment. This study is a single-center, double-blind 4 months duration trial.