View clinical trials related to Alzheimer's Disease.
Filter by:The purpose of the study is to determine the highest dose of TPI-287 that is safe and tolerable when administered as an intravenous infusion to participants with mild to moderate Alzheimer's disease (AD), to measure pharmacokinetic properties of the drug as well as to gauge preliminary efficacy of TPI-287 on disease progression.
Alzheimer's disease (AD) is a neurodegenerative disorder characterized by progressive loss of memory and other cognitive functions. It is the most common cause of dementia in older adults, affecting approximately 18 million people worldwide, including almost 500,000 in the Philadelphia tri-state area. After age 65, the incidence of AD rises exponentially, doubling every five years. By age 85, almost half of us will have AD. In 2030, as many as 7.7 million Americans could have AD, and by 2050 this number could rise to 11-16 million people. The annual cost of AD in the United States is about $200 billion. AD-related medical complications are among the most common causes of death in the elderly population. Despite these alarming statistics, a "cure" for AD may not be essential since delaying the onset of AD by just 5 years could have a profound impact on this disorder by reducing the incidence and cost of AD by 50% between now and 2050. AD is difficult to recognize in its earliest stages, in which the principal complaint is typically an increase in episodes of forgetfulness. This stage is now commonly referred to as mild cognitive impairment (MCI). Neuroimaging and CSF biomarkers have demonstrated good accuracy in predicting which MCI patients later "convert" to AD and which tend to remain stable or revert to more normal cognition. The diagnosis of AD itself is made when increased loss of memory and other cognitive abilities (eg, language, praxis, and executive function) affect daily functioning. As the symptoms of dementia inevitably worsen, patients may become incapable of even basic activities such as feeding and dressing themselves. The disease course often spans more than a decade, creating a vast social and financial burden on society and extracting an immeasurable emotional toll on family members. Clinical and preclinical evidence is accumulating that brain insulin resistance may play a role in the pathogenesis and/or progression of Alzheimer's disease and that ameliorating insulin action in the brain may benefit cognition symptomatically and modify disease pathology.
Our preliminary data show for in cognitively-normal elderly, that Sleep Disordered Breathing (SDB) is associated with the increase of cerebrospinal fluid (CSF) phosphorylated-Tau (P-Tau) and total-Tau (T-Tau), decreases in medial temporal lobe glucose uptake (FDG-PET) and volume (MRI) and progressive memory decline, all of which have been shown to be useful in predicting future dementia in older adults. These findings raise the question as to whether Alzheimer's disease (AD) tissue damage causes SDB in the elderly, or alternatively, if SDB acts as a risk factor for AD neurodegeneration. In the proposed study, we will investigate these mechanistic hypotheses in cognitively normal elderly by examining the longitudinal associations between SDB and cognitive decline, novel MR neuroimaging and CSF biomarkers for neurodegeneration; while our secondary goal is to launch a pilot treatment study to aid in interpreting the mechanistic hypotheses and to examine the effects of nasal continuous positive airway pressure (CPAP) on cognitive decline and neurodegeneration.
Remembering how to travel from one location to another is critical in everyday life, yet this vital ability declines with normal aging and can be further affected by conditions that disproportionately affect the elderly, such as vision loss or progressive dementia. Human and animal research has shown that two distinct memory systems interact during navigation. The first, referred to as allocentric navigation, is very flexible and uses spatial knowledge of key features or landmarks to develop and use a mental map of the environment. This approach involves brain regions that are critical for new learning and memory but that decline with age. The second, referred to as egocentric navigation, is inflexible and relies on "habit" memories that link specific features with specific directions. This approach relies on brain regions that are critical for "automatic" responses and that are relatively unaffected by age. The main problem is that allocentric navigation declines with age and is accompanied increased dependence on egocentric navigation. This change increases the risk of becoming disoriented or "lost" when traveling in unfamiliar areas or even when traveling new routes in familiar areas. Therefore, the main goal of this project is to examine whether non-invasive brain stimulation, specifically transcranial direct current stimulation, can improve allocentric navigation in healthy older adults and patients with mild cognitive impairment. Participants will complete two functional magnetic resonance imaging sessions while learning new environments. Before one of these sessions, participants will receive active brain stimulation over the parietal cortex. Before the other session, participants will receive sham brain stimulation over the parietal cortex. The effects of this stimulation will be evaluated using both an allocentric and an egocentric memory test. Physiologic effects will be evaluated using both task-based and resting-state MRI.
To establish efficacy of idalopirdine as adjunctive therapy to donepezil for symptomatic treatment of patients with mild-to-moderate Alzheimer's disease (AD).
Brain scans can help identify changes that appear to increase risk for cognitive decline and dementia. Some of these brain changes are thought to reflect actual damage to the small blood vessels that support normal brain function. This clinical trial will determine whether an omega 3 polyunsaturated fatty acid (PUFA) therapy can promote brain health by supporting the small blood vessels in the brain over 3 years in older adults at high risk for cognitive decline and dementia of Alzheimer's type.
This study consists of two parts, Part 1 and Part 2. Part 1 assesses the efficacy and safety of verubecestat (MK-8931) compared with placebo administered for 104 weeks in the treatment of amnestic mild cognitive impairment (aMCI) due to Alzheimer's Disease (AD), also known as prodromal AD. Participants are randomized to receive placebo, or 12 mg or 40 mg verubecestat, once daily. The primary study hypothesis for Part 1 is that ≥1 verubecestat dose is superior to placebo with respect to the change from baseline in the Clinical Dementia Rating scale-Sum of Boxes (CDR-SB) score at 104 weeks. Participants completing Part 1 may choose to participate in Part 2, which is a long term double-blind extension to assess efficacy and safety of verubecestat administered for up to an additional 260 weeks. In Part 2, all participants receive either 12 mg or 40 mg verubecestat, once daily.
To investigate the efficacy of Exelon capsule at maximal tolerated dose in mild to moderate Chinese AD patients via dosage titration from 3mg/d to 12mg/d in a 16 weeks duration
The purpose of this study is to determine whether Zydena (Udenafil) has positive effect on cognitive function in patients with Alzheimer's disease. This study is a randomized, double blind, placebo-controlled multicenter study.
Exercise has been shown to be beneficial for the brain. The investigators would like to test this specifically for those diagnosed with Alzheimer's disease. This study will involve 30 randomized patients to take part in the out-patient exercise program and 30 patients to continue with their regular activities over a 6-month period. Once that period is over, half of the 30 patients who participated in the outpatient exercise program will continue in the program and the other half will be randomized to independently continue to exercise. The investigators hypothesize that exercising will benefit the patient by slowing the dementia process, improving behavioral symptoms, and decreasing volume loss of certain brain regions. Each person will perform personalized exercise regimens, MR imaging and neuropsychological tests will be used to measure the benefits of exercise. Ultimately, the hope is that the results of this study could be used to facilitate exercise programs for patients. Enrollment is completely voluntary and all personal data obtained will remain confidential.