9 Clinical Trials for Various Conditions
This is a research study that aims to examine whether Veterans with mild Traumatic Brain Injuries are at risk for dementia by studying their memory, brain wave activity, brain structure and proteins that can be elevated after brain injury and in dementia.
Each year, millions of people are exposed to repetitive head impacts (RHI) through contact sports. RHI can result in concussions and asymptomatic non-concussions to confer risk for Alzheimer's disease (AD) and related dementias (ADRD) including chronic traumatic encephalopathy (CTE). Presently, a diagnosis of CTE can only be rendered at autopsy and it has been neuropathological diagnosed in several hundreds of American football players particularly those who played at elite levels (college and professional). The ability to make an accurate diagnosis of CTE is needed to facilitate research on risk factors, mechanisms, prevention, and treatment. In 2015, the investigators were awarded a NINDS funded 7-year U01 known as the DIAGNOSE CTE Research Project (NCT02798185) designed to develop biomarkers, characterize the clinical presentation, and examine genetic and RHI risk factors for CTE. This current 5-year NIH funded multicenter study DIAGNOSE CTE Research Project-II will build on and extend those findings.
Determine if the daily docosahexaenoic acid (DHA)/eicosapentaenoic acid (EPA) supplement will reduce serum levels of biomarkers of sub-concussion injuries over a course of American football season among collegiate football athletes.
The goal of this study is to assess \[18F\]MNI-777 PET imaging as a tool to detect tau pathology in the brain of individuals who carry a clinical diagnosis of a tauopathy, including: Alzheimer's Disease (AD),Parkinson's disease (PD) Progressive Supranuclear Palsy (PSP), chronic traumatic encephalopathy (CTE) and Frontal Temporal Dementia (FTD) and age- and gender-matched healthy subjects.
The objective of this study is to measure the frequency and clinical types of mild cognitive impairment (MCI) or dementia that occur among up to 150 military retirees with and without a history of traumatic brain injury (TBI) among residents of the Armed Forces Retirement Home, Washington D.C. and the Veterans Home of California-Yountville. Investigators will compare the characteristics of dementia in those who have had a prior TBI to the characteristics in those without a history of TBI. It is our hypothesis that the dementia or MCI among those with prior TBI has distinct neuropsychological features that distinguishes it from those with dementia or MCI without a history of TBI.
The purpose of the study is to evaluate the use of autologous Bone Marrow Derived Stem Cells (BMSC) as a means to improve cognitive impairment as occurs in Alzheimer's Disease and other dementias and to improve behavior and socialization issues which occur in adult Autism Spectrum Disorder. The use of Near Infrared Light, in conjunction with the use of BMSC, will also be assessed.
This is a study to develop methods of diagnosing chronic traumatic encephalopathy (CTE) during life, as well as to examine possible risk factors for this neurodegenerative disease. One component of this study is the use of an investigational PET scan radio tracer to detect abnormal tau protein in the brain.
Chronic traumatic encephalopathy (CTE) is a progressive degenerative brain disease with symptoms that include memory loss, problems with impulse control, and depression that can lead to suicide. As the disease progresses, it can lead to dementia. Currently CTE can only be diagnosed postmortem where an over-accumulation of a protein called tau is observed. There is now a new experimental measure that makes it possible, for the first time, to measure tau protein in the living human brain using a novel positron emission tomography (PET) ligand, \[F-18\] AV-1451 (aka, \[18F\]-T807). The main objective of this study is to use a novel PET approach to measure tau accumulation in the brain. The presence of CTE at autopsy in deceased National Football League (NFL) players has been well documented. Accordingly, we will conduct this study in a group of retired NFL players who have clinical symptoms of CTE and are suspected of having CTE based on high levels of tau in their spinal fluid and abnormalities seen on research brain scans. We will compare them with a control group of former elite level athletes who have not experienced any brain trauma, deny any clinical symptoms, and who have completely normal spinal fluid tau and amyloid levels, and brain scans. We will also include a group of subjects with AD. All participants will be recruited from ongoing studies, headed by the Partnering PI of this proposal, Dr. Robert Stern, at the Boston University Center for the Study of Traumatic Encephalopathy and the Alzheimer's Disease Center. We will use both a beta amyloid PET scan (\[18F\]-florbetapir) and a tau PET scan (\[18F\]-T807) on consecutive days. With the beta amyloid scan we expect little or no evidence of amyloid in the NFL players with presumed CTE, and no evidence of amyloid in the control group of athletes with no history of repetitive brain trauma. In contrast we expect to see beta amyloid accumulation in the AD patient brains. With the new tau ligand, we expect that the NFL players with presumed CTE will show elevated levels of tau protein in the brain, which will not be observed in athletes without a history of brain trauma, but which will be seen in the AD patients' brains. Another goal is to use the latest MRI technologies to develop specific tau imaging biomarkers that correlate with the PET and spinal fluid tau measures but without the radiation of PET or invasiveness of spinal taps. The development of these surrogate imaging markers of tau, is critically important to diagnosing CTE. This in turn will lead to studies relevant to treatment and prevention of this devastating disease. Finally, as an exploratory method of examining possible genetic risk for CTE, we will also use cutting edge genetic analysis of blood samples from subjects in this proposal and compare tau load, measured by PET tau ligand uptake and cerebrospinal fluid (CSF) p-tau level, with a measure of genetic susceptibility to tau load, referred to as the genetic risk score for tau.
This project was designed to determine brain imaging patterns using 2-(1-{6-\[(2-fluorine 18-labeled fluoroethyl)methylamino\]-2-naphthyl}ethylidene)malononitrile (\[F-18\]FDDNP) with positron emission tomography (PET) in participants with suspected Chronic Traumatic Encephalopathy (CTE), a progressive degenerative disease of the brain found in people with a history of repetitive traumatic brain injuries (TBIs), characterized by personality, behavioral, and mood disturbances, cognitive impairment, and sometimes motor symptoms. Currently, CTE can only be definitely diagnosed from neuropathological examination of the brain after autopsy. Developing tools to assist in the detection of this condition in living individuals at risk would facilitate research focusing on discovering potential prevention and treatment strategies.