19 Clinical Trials for Various Conditions
Alzheimer's disease (AD) is a progressive, irreversible neurological disorder and is the most common cause of dementia in the elderly population. Clinical symptoms of the disease may begin with occasional forgetfulness such as misplacement of items, forgetting important dates or events, and may progress to noticeable memory loss, increased confusion and agitation, and eventually, loss of independence and non-responsiveness. This study will assess how safe and effective ABBV-916 is in treating early AD. Adverse events, change in disease activity, and how ABBV-916 moves through body of participants will be assessed. ABBV-916 is an investigational drug being developed for the treatment of early AD. This study is conducted in 2 stages. Stage A is a multiple ascending dose study. There is a 1 in 4 chance that participants are assigned to receive placebo. Stage B is a proof-of-concept study. In Stage B, there is a 1 in 5 chance that participants will be assigned to receive placebo. The first 6 months of this study are "double-blind," which means that neither the trial participant nor the study doctors know which treatments will be given. This will be followed by a 2-year extension period in which all participants will receive ABBV-916. Approximately 195 participants aged 50-90 years will be enrolled in about 90 sites across the world. Participants will receive intravenous (IV) doses of ABBV-916 or placebo once every 4 weeks (Q4W) for 24 weeks and will be followed for an additional 16 weeks. Participants will have the option of participating in a 2-year, open-label, Extension Period receiving IV ABBV-916. There may be higher treatment burden for participants in this trial compared to their standard of care. Participants will attend regular visits during the study at a hospital or clinic. The effect of the treatment will be checked by medical assessments, magnetic resonance imaging (MRI), blood tests, checking for side effects and completing questionnaires.
The initial goal of the investigators interdisciplinary group of imagers, oncologists, neurologists, neuro-psychologists, and biostatisticians is to obtain proof of concept pilot data for eventual submission of a National Cancer Institute Quick-Trial for Imaging and Image-Guided Interventions: Exploratory Grant (R10) depending on the results of this pilot study. The overall objective is to use \[18F\]Flutemetamol, FDG-PET, and fMRI to better understand CICI, which effects up to 16 -50% of individuals receiving long-term adjuvant chemotherapy.2,3 To date there have been few studies examining this problem using multi-modality imaging techniques to better understand this complex and significant problem. FDG-PET and fMRI are routinely used in clinical practice for the evaluation of cognitive dysfunction in older populations complaining of memory dysfunction. It is well recognized that FDG-PET can assist with the differentiation and characterization of various cognitive disorders due to unique patterns of cerebral metabolism caused by various cognitive and dementia-causing disorders.4-6 FDG-PET has been studied extensively in dementia research and has a high reliability in detecting Alzheimers disease (AD) many years before it can be diagnosed reliably using clinical criteria.4 To the investigators knowledge, there has been only a single small study using FDG-PET and bolus water activation paradigms in cancer patients complaining of memory problems.7 To date, there have been no studies using \[18F\]Flutemetamol as a PET imaging agent to assess the possibility of increased amyloid plaque burden as a potential contributing factor to the cognitive deficits and complaints seen in patients experiencing CICI. The novel feature of this project is in the combined use of \[18F\]Flutemetamol-PET, FDG-PET, and fMRI to study a poorly understood but common problem: cognitive impairment in breast cancer patients treated with chemotherapy. If \[18F\]Flutemetamol, FDG-PET, and fMRI can provide information on the pathophysiology of this disorder, it will be an important step in better understanding the etiology of this phenomenon and possibly other conditions resulting in cognitive dysfunction. These imaging assessments will make it possible to explore any altered changes in cerebral structure, metabolism, and amyloid deposition that may be responsible for CICI. This may help to predict which individuals may be affected by this problem and provide information for eventual therapeutic strategies to treat this common cancer-associated disorder. This study will use \[18F\]Flutemetamol and FDG-PET imaging to assess and quantify the amyloid plaque burden and cerebral glucose metabolism, respectively, in breast cancer patients suffering from CICI and correlate those findings with structural changes on MRI. The \[18F\]Flutemetamol and FDG-PET scans of these study patients will then be compared to two GE software databases (CortexID-FDG and CortexID-Flutemetamol) which contain scan data from healthy control individuals to evaluate for abnormalities in cerebral glucose metabolism and amyloid plaque burden differing from the values expected for individuals in their age range.
The overall goal of this project is to establish and validate biomarkers associated with the risk and progression of late onset Alzheimer's disease, mild cognitive impairment and cognitive decline. The investigators will use baseline and longitudinal measurements of plasma amyloid beta-40 and amyloid beta-42 to investigate the risk of developing mild cognitive impairment and late onset Alzheimer's disease, as well as the rates of cognitive decline and Alzheimer's disease progression. The driving hypothesis of the study is that amyloid beta in the brain as measured by positron emission tomography positivity is associated with the onset of cognitive decline associated with late onset Alzheimer's disease.
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.
This is a prospective, open label, non-therapeutic, diagnostic imaging study. The purpose of this study is to utilize Pittsburgh Compound B positron emission imaging (PiB PET) to ascertain the relationship between change in amyloid burden over time, and concurrent change in clinical status.
The study will investigate the possibility of detecting early signs of Alzheimer's disease using magnetic resonance imaging (MRI). If plaques, types of damage, can be imaged by MRI, the procedure could be used in clinical trials and may also help in the clinical diagnosis of patients. Alzheimer's disease, a progressive disease, is a major cause of functional disability and institutionalization, affecting 4.5 million people in the United States, a number that will more than triple by 2030 as the population ages. Patients ages 55 to 90 who have mild symptoms of Alzheimer's disease and who are in good health may be eligible for this study. Twenty patients will be recruited from Johns Hopkins' Alzheimer's Disease Research Center. There will also be a control group of 20 people without the disease. Healthy patients and volunteers will have a clinical MRI brain scan and a neurological examination at Johns Hopkins Hospital before the 7T MRI scan. Also, patients will have a Mini-Mental State Examination, a standardized test to evaluate memory, done at Johns Hopkins within 4 weeks of the 7T MRI. This study uses a device situated at the NIH Bethesda campus that operates at a high magnetic field strength of 7 Tesla, that is, the unit used to measure the strength of a strong magnet. The Food and Drug Administration has categorized MRI up to 8 Tesla as not a significant health risk. MRI scanning is routinely done at magnetic field strengths up to 4T. MRI images are created through the use of a large magnet and radio waves. During the procedure, patients lie on a table moved into a strong magnetic field. They are asked to lie still but can easily hear and speak to research staff. A respiratory belt is placed around the chest, and a finger probe is placed on the finger, to monitor breathing and heart rate. For obtaining a better picture, a special lightweight coil may be placed on or around the patient's head. The scan takes from 20 minutes to 2 hours, with most scans at 45 to 90 minutes. Due to limited experience with the use of 7T MRI and its investigational nature, patients will be asked to complete a questionnaire immediately after the study. They will be asked about their comfort level and if they experienced unusual sensations. Answers will be reviewed with patients by an experienced MRI investigator to get details of any unusual sensations reported. If patients experience unusual sensations, they are followed up by phone within 24 hours. This study wi...
Amyloid senile plaques (SPs) and neurofibrillary tangles (NFTs) are neuropathological hallmarks of Alzheimer's disease (AD) that also accumulate in key brain regions in association with normal aging. This project will expand an established program in early detection and prevention of AD designed (1) to identify presymptomatic persons most likely to benefit from early intervention and (2) to provide an objective, noninvasive means to monitor therapeutic trials.
The purpose of this study is to assess the safety, tolerability, immunogenicity and pharmacodynamic effects of ACI-24.060 in subjects with prodromal Alzheimer's disease and in non-demented adults with Down syndrome.
Accumulating evidence indicates that inflammation is prominent both in the blood and central nervous system (CNS) of Alzheimer's disease (AD) patients. These data suggest that systemic inflammation plays a crucial role in the cause and effects of AD neuropathology. Capitalizing on the experience from a previous clinical trial with thalidomide, here, the investigators hypothesize that modulating both systemic and CNS inflammation via the pleiotropic immunomodulator lenalidomide is a putative therapeutic intervention for AD if administered at a proper time window during the course of the disease.
The reason for this study is to collect safety and efficacy information regarding the study drug remternetug in participants with early symptomatic Alzheimer's disease (AD).
To identify factors that signal the transition from asymptomatic (preclinical) to symptomatic Alzheimer disease (AD).
The reason for this study is to see how safe and effective the study drug donanemab is in participants with early Alzheimer's disease. Additional participants will be enrolled to an addendum safety cohort. The participants will be administered open-label donanemab.
Alzheimer's disease is associated with accumulation in the brain of a protein called amyloid. The purpose of this study is to test the ability of a research drug to measure amyloid in brain using positron emission tomography (PET) and a research drug called \[11C\]MeS-IMPY.
Since its launch in 2004, the overarching aim of the Alzheimer's Disease Neuroimaging Initiative (ADNI) Study has been to validate biomarkers for Alzheimer's disease (AD) clinical trials. ADNI4 continues the previously funded ADNI1, ADNI-GO, ADNI2, and ADNI3 studies that have combined public/private collaborations between academia and industry to determine the relationships between the clinical, cognitive, imaging, genetic and biochemical biomarker characteristics of the entire spectrum of AD.
The Longitudinal Early-onset Alzheimer's Disease Study (LEADS) is a non-randomized, natural history, non-treatment study designed to look at disease progression in individuals with early onset cognitive impairment. Clinical, cognitive, imaging, biomarker, and genetic characteristics will be assessed across three cohorts: (1) early onset Alzheimer's Disease (EOAD) participants, (2) early onset non-Alzheimer's Disease (EOnonAD) participants, and (3) cognitively normal (CN) control participants.
Alzheimer's disease (AD) is the most common cause of dementia in adults 65 years and older. AD leads to a complete loss of memory and independent function, and presently there is no cure. Many studies suggest that lithium treatment may delay dementia onset or slow its progression. However, more research is needed to understand the extent of its anti-dementia properties if it will be deployed broadly in the general population. This study will examine whether lithium has anti-dementia properties in older adults who have mild cognitive impairment and are at risk of becoming demented.
Since its launch in 2004, the overarching aim of the Alzheimer's Disease Neuroimaging Initiative (ADNI) has been realized in informing the design of therapeutic trials in AD. ADNI3 continues the previously funded ADNI-1, ADNI-GO, and ADNI-2 studies that have been combined public/private collaborations between academia and industry to determine the relationships between the clinical, cognitive, imaging, genetic and biochemical biomarker characteristics of the entire spectrum of Alzheimer's disease (AD). The overall goal of the study is to continue to discover, optimize, standardize, and validate clinical trial measures and biomarkers used in AD research.
The purpose of this study is to build upon the information obtained in the original Alzheimer's Disease Neuroimaging Initiative (ADNI1) and ADNI-GO (Grand Opportunity; a study funded through an NIH grant under the American Recovery and Reinvestment Act), to examine how brain imaging technology can be used with other tests to measure the progression of mild cognitive impairment (MCI) and early Alzheimer's disease (AD). ADNI2 seeks to inform the neuroscience of AD. This information will aid in the early detection of AD, and in measuring the effectiveness of treatments in future clinical trials.
The purpose of this study is to build upon the information obtained in the original Alzheimer's Disease Neuroimaging Initiative (ADNI1), to examine how brain imaging technology can be used with other tests to measure the progression of mild cognitive impairment (MCI) and early Alzheimer's disease (AD). ADNI-GO seeks to define and characterize the mildest symptomatic phase of AD, referred to in this study as early amnestic MCI (EMCI). This information will aid in the early detection of AD, and in measuring the effectiveness of treatments in future clinical trials.