View clinical trials related to Alzheimer Disease.
Filter by:The diagnosis of diseases causing memory difficulties or dementia is often challenging. Without the use of advanced methods such as cerebrospinal fluid tests, approximately 25-30% do not receive a correct diagnosis today. However, the investigators have recently developed new blood biomarkers with high diagnostic accuracy, and the investigators now want to investigate whether they can eventually replace cerebrospinal fluid tests. This is because blood tests are much more cost-effective and significantly easier for patients compared to cerebrospinal fluid tests. In this study, 1200 patients undergoing clinical evaluations at the Memory Clinic, Skåne University Hospital in Malmö, are included for blood and cerebrospinal fluid sample collection. The blood samples are sent for analysis using the new blood biomarkers. Subsequently, the results are compared with those from the clinical analysis of cerebrospinal fluid to determine how well they perform in routine clinical practice as an alternative to cerebrospinal fluid tests and whether the blood test improves patient care. This comparison is carried out by the attending physician in three steps: 1. Assessment without access to the results of either the blood test or cerebrospinal fluid test. 2. Assessment with access to only the results of the blood test. 3. Assessment with access to the results of both the blood test and cerebrospinal fluid test. Aim 1) To prospectively validate plasma Alzheimer's disease (AD) biomarkers for diagnosis of patients with cognitive symptoms who are evaluated in a specialist memory clinic. Aim 2) Determine whether blood AD biomarkers improve patient management in specialist memory clinic settings.
Objective 1: To scale-up the nutrition adherence intervention for testing in predominantly Black and African-American rural communities in North Florida. The investigators hypothesize that: 1. The protocol will produce at least 75% of participants obtaining measurable levels of urine ketones (e.g., good adherence) in the Mediterranean-Ketogenic nutrition (MKN) group and an average score of >9 on the MEDAS questionnaire in the Mediterranean group during the 10-week program. Objective 2: To evaluate the effects of adherence to Mediterranean versus Mediterranean-Ketogenic nutrition on novel gut-brain axis markers of Alzheimer's disease pathogenesis in individuals with mild cognitive impairment compared to cognitively normal older adults. The investigators hypothesize that individuals with mild cognitive impairment will: 1. Have greater evidence of gut dysbiosis at baseline than cognitively normal controls and 2. Will demonstrate greater increases in beneficial gut microbial metabolites in response to adherence to Mediterranean-Ketogenic nutrition and the Mediterranean diet compared to CN controls.
This research study aims to examine biomarkers of Alzheimer's disease (AD) as early as possible which could potentially be a screening tool for the general population. This observational study will take place at the Skåne University Hospital in Sweden. The study will enroll up to 600 cognitively healthy subjects aged 50 to 80 years with 3/4 having preclinical Alzheimer's disease. Recruitment and enrollment will be ongoing for 2-3 years, and subject participation will be lasting approximately 4 years. Disclosure of AD risk assessments will be an optional procedure.
The overall aim of the study is to improve the diagnostic accuracy of AD and cognitive impairment in primary care settings to ensure better care and treatment as well as facilitate correct referrals to specialized memory clinics. The investigators will strive to recruit diverse and representative populations of patients with subjective cognitive decline (SCD), mild cognitive impairment (MCI) and mild dementia. The specific aims of the study are to: 1. Improve the detection of mild cognitive impairment (MCI) and dementia in primary care. 2. Develop and evaluate cognitive tests, blood-based biomarkers and brain imaging methods that are suitable for accurate and early diagnosis of Alzheimer's disease (AD) in primary care. 3. To prospectively validate plasma AD biomarkers for diagnosis of patients with cognitive symptoms who are evaluated in primary care. 4. Determine whether blood AD biomarkers improve patient management in primary care.
Alzheimer´s disease (AD) is the most common cause of dementia. The most important risk factor for AD is old age; modifiable risk factors for AD include metabolic risk factors, i.e. diabetes, and obesity. Insulin resistance seems to be associated with AD pathology and cognitive decline. Previous studies suggest that AD and mild cognitive impairment (MCI) due to AD, a stage between normal cognition and AD dementia, would be associated with central nervous system (CNS) insulin resistance. Insulin resistance can be measured using a sophisticated hyperinsulinemic-euglycemic clamp technique. Insulin-stimulated glucose uptake of muscles and adipose tissue is known to be reduced in an insulin resistant subject compared to healthy insulin sensitive subjects. Central nervous system insulin resistance, however, is more difficult to assess, while a clear-cut definition is thus far lacking. Previous studies have demonstrated that whole-body insulin resistance in obese subjects is accompanied with higher brain glucose-uptake (BGU) during the insulin clamp, compared to lean controls, and that BGU increases from the fasting to the insulin clamp state. On the contrary, there is no difference in BGU under fasting conditions between obese subjects and healthy lean controls. No previous studies have evaluated brain glucose uptake in clamp conditions in subjects with MCI or early AD. The aim of this study is to evaluate if brain glucose uptake is increased in MCI/ early AD subjects in a similar manner as in morbidly obese subjects in an insulin-stimulated state (during a hyperinsulinemic clamp) when compared to the fasting state, and when compared to controls. The investigators hypothesize that MCI subjects would have CNS insulin resistance that could, in time, contribute to the pathological process of AD. The investigators will recruit altogether 20 MCI subjects from the local memory clinic, and healthy controls through advertisements. All participants will undergo two [18F]-fluorodeoxyglucose (FDG) positron emission tomography (PET) scans (one in the fasting state and one during the hyperinsulinemic clamp), a magnetic resonance image scan for structural changes, blood sampling, and comprehensive cognitive testing. The participants will also undergo a [11C]PIB-PET scan to measure brain amyloid accumulation. Understanding the metabolic changes in the brain preceding AD could help in developing disease-modifying treatments in the future.
In Nuclear Medicine, the examinations are long (20-60 minutes) and the patients must remain immobile, sometimes fasting. The anxiety of the latter can lead to poor quality examinations and sometimes, although already injected with radioactive drugs, the patients refuse the examination. In imaging, the use of hypnosis (prior to the MRI examination or with the patient during a scintigraphic examination) is frequent due to the conformation of MRI or scintigraphic machines, particularly for claustrophobic patients (2-2.5% of cases). Medical electroradiology manipulators (MERM) have been trained to practice Ericksonian hypnosis whose effectiveness in combating anxiety is no longer in question. Scientific studies by Faymonville et al, 2006 and Rainville et al, 2002, have shown the effectiveness of this method in managing anxiety using the simplified STAI-6 scale before and after hypnosis. The dosimetric study of the MERM position would then be greatly modified in favor of a decrease in exposure targeted by the June 4, 2018 decree on personnel safety. The impact of whether or not the MERM is physically present near the patient would also be studied. If minimal, this will resolve the current contradiction between the quality of patient care delivered and the radiation protection imposed in nuclear medicine. The investigators propose here a pilot study evaluating remote-delivered Ericksonian hypnosis versus conventionally-delivered Ericksonian hypnosis, which will allow for the sizing of a subsequent multicenter randomized non-inferiority controlled trial. Indeed, there is currently no data available on the non-inferiority margin of this technique.
To evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of SHR-1707 in patients with mild cognitive impairment (MCI) due to Alzheimer's disease (AD) and mild AD for 26 weeks.
A 2-arm (sequence), 2-period, 2-treatments, single blinded (outcome assessor), randomized crossover-trial (12+12 weeks with immediate contrast) comparing a low-carbohydrate-high-fat diet (LCHF) with a high-carbohydrate-low-fat diet (HCLF) among individuals with prodromal Alzheimer's disease.
Memories are more robust when they are multitraced. This means that the more a piece of information is mediated by different sensory inputs, the more resistant it is to being forgotten. Many works in the field of embodied cognition show that new learnings are better recalled over the long term when they are learned during body mobilization. Other works show that musical stimulation could be a good way of eliciting physiological and emotional states more favorable to the memorization of new contents. However, to date, no studies have examined the positive effects of these two tools combined in Alzheimer's disease. The investigators suggest that it is possible to optimize memory in Alzheimer's disease by referring to their motor and emotional resources. The hypothesis is that information will be better recalled with multimodal enriched learning.
TRIAGE-Neuro is a survey study designed to assess potential participants' eligibility to screen for industry-sponsored neurology clinical trials.