83 Clinical Trials for Various Conditions
The purpose of this study is to learn more about how brain stimulation affects word finding problems in people who have a traumatic brain injury (TBI). The type of brain stimulation used is called transcranial direct current stimulation (tDCS). tDCS delivers low levels of electric current to the brain and high definition tDCS (HD-tDCS) delivers the current with multiple electrodes on the scalp. This current is delivered with HD-tDCS to parts of the brain that may help with remembering things. The investigators hope that this can help to improve word finding and memory problems in people with TBI.
The goal of this study is to learn if a enhanced environment (Metro Café) with multi model approach (an approach that combines several therapies) in chronic traumatic brain injury improves outcomes of recovery better than traditional therapy. The main questions it aims to answer are: * Determine the amount of therapy dosage (speech, cognition, arm and leg movements) obtained during the Metro Café therapy session. * Evaluate the connection between environmental enrichment dosage (the Metro Café) and clinical outcome scores. Researchers will compare Metro Café Treatment to those who do not receive this treatment to see if better improvements in function after a traumatic brain injury are seen in the Metro Café Treatment Participants will train in the Metro Cafe during the 2-month gap between assessments, for a total of 18 training sessions, each up to 2 hours, 3 times per week. Participants will greet and serve customers drinks and snacks, maintain food supplies at the counters and performs housekeeping tasks with advice and assistance from a supervising researcher as needed,
Acute intermittent hypoxia (AIH) involves 1-2min of breathing low oxygen air to stimulate neuroplasticity. Animal and human studies show that AIH improves motor function after neural injury, particularly when paired with task-specific training. Using a double blind cross-over study we will test whether AIH and task-specific airway protection training improves airway protection more than training alone in individuals with chronic mild-moderate traumatic brain injury (TBI).
This is a pilot and feasibility study for a mobile phone-delivered intervention for memory, called MEMI (memory ecological momentary intervention), that was designed to support adults with chronic traumatic brain injury with their memory. The goal of the study is to examine the feasibility and acceptability of MEMI and to assess preliminary efficacy as to whether technology-delivered spaced memory retrieval opportunities improve memory in people with and without a history of chronic traumatic brain injury.
The global objective of this study is to establish the safety and investigate the potential treatment effect of an intravenous infusion of HB-adMSCs (Hope Biosciences adipose-derived mesenchymal stem cells) on brain structure, neurocognitive/functional outcomes, and neuroinflammation after traumatic brain injury.
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.
Traumatic Brain Injury (TBI) is a prevalent disorder developed by military personnel. While some individuals recover function within months after injury, others continue to suffer from cognitive problems months to years later and may not become evident immediately, particularly for the recently transitioned veteran. Chronic TBI cases may include persistent difficulties in cognition that negatively impact employment and personal relationships. The investigators will test and evaluate software-based interventions aimed at improving cognition in veterans experiencing everyday life cognitive deficits due to TBI. The interventions will be administered on a computer using a tele-health approach. Two conditions will be compared, an active condition challenging memory, inhibitory control and planning, and a context-matched control condition that is lower on these challenge levels.
The purpose of this clinical trial is to assess the relative efficacy of two non-pharmacological interventions for insomnia in Veterans suffering from chronic mild traumatic brain injury (mTBI).
Chronic Traumatic Brain Injury (cTBI) symptoms exist in individuals who experienced previous traumatic brain injuries. There are 80-90 thousand individuals who are clinically diagnosed with cTBI, with estimated costs at greater than 60 billion dollars. However, there is a lack of studies using comprehensive diagnostic imaging tools to better understand physiological ramifications of the injury that may help guide therapy. This study uses integrative medicine approaches for persons with cTBI. Another aim of this study will be a continuation of this protocol in an effort to address the ongoing distressing physiological and psychological (anxiety and depression) symptoms associated with cTBI. After completion of the initial 3 study arms, the investigators have amended the protocol to evaluate the physiological and psychological effects and potential symptom improvement of integrative medicine approaches in cTBI patients using the Neuro Emotive Technique (NET). Participants may be re-enrolled in the NET group after completion of participation in the initial study arms. The participants in the NET substudy will be interviewed about Subjective Units of Distress (SUDS) associated with the cTBI event initially and after completion of the NET sessions.
The potential long-term effects of Traumatic Brain Injury (TBI) are poorly understood. Repeated concussions have been associated with an elevated incidence of Alzheimer's disease (AD) along with a reduced age of onset. As repetitive TBI has been studied, a syndrome has now been identified: chronic traumatic encephalopathy (CTE). There are growing concerns about the long-term neurologic consequences of head impact exposure from routine participation in contact sports (e.g., boxing, football). Brain autopsies of athletes with confirmed CTE have demonstrated tau-immunoreactive neurofibrillary tangles and neuropil threads (known as tauopathy). The relationship between exposure to repetitive head impact and the subsequent development of chronic neurodegenerative disease has not been established. Further, as the diagnosis of CTE (defined by the presence of tauopathy) is presently made after death at autopsy, clinical tools and biomarkers for detecting it remain to be defined. With the advent of FDA-approved PET amyloid imaging, clinicians and researchers are now able to estimate plaque density in the brains of living patients. However, there are critical limitations to amyloid imaging. Current evidence suggests that markers of the presence and severity of tauopathy may be able to address these limitations. The study will utilize both \[18F\] Florbetapir and \[18F\]-T807 PET imaging to investigate amyloid and tau accumulation in subjects with a history of concussions. In order to determine whether problems with cognition and memory are seen within the populations defined for the study, the researchers will administer a core battery of neurocognitive testing. This battery will assess cognitive abilities commonly affected by TBI, including processing speed, reaction time, new problem-solving, executive functions, attention and concentration, and learning and memory. These tests, in conjunction with the imaging, will be able to determine whether regional brain activity is associated with specific cognitive problems. The researchers will obtain PET and neurocognitive data in 3 cohorts: subjects with a history of TBIs, subjects with mild cognitive impairment (MCI) and no TBI history, and healthy controls. The investigators aim to determine whether individuals with TBI are on the same trajectory of neurodegenerative disease seen in AD or in CTE. Because of the overlap in clinical/cognitive and some behavioral symptoms in AD and CTE, an additional biomarker tool is needed to prevent misdiagnosis. Accurate diagnosis is crucial in order to provide patients with appropriate treatment.
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.
The purpose of this study is to determine whether sildenafil (Viagra®) is effective in improving cerebral blood flow and cerebrovascular reactivity inpatients who have persistent symptoms at least 6 months after a traumatic brain injury (TBI).
The aim of this research is to determine if the biological fluids (blood/saliva) from chronic brain-injured patients (both blast and non-penetrating TBI) contain reproducible protein markers. To accomplish this two populations of chronic TBI patients who are receiving treatment at The Institute for Research and Rehabilitation (TIRR): blast injury victims and non-penetrating TBI will be studied. Using multiple proteomic approaches including mass spectrometry, multiplex ELISAs, and antibody microarrays, as well as RNA profiling, the investigators aim to identify biomarkers in the blood/saliva of patients suffering from chronic TBI and to determine the similarities/differences between the blast and non-penetrating injury groups. Identification of these biochemical changes will give insight into the long-lasting changes associated with head injury, and may identify new targets for treating the associated pathologies.
This is an observational research study whose purposes are to see: 1. if 40 Hyperbaric Oxygen Therapy sessions at 1.5 atmospheres (HBOT 1.5) or more (60, or 80 HBOT's) help, worsen, or have no effect on subjects with chronic TBI/PCS (Traumatic Brain Injury/Post-Concussion Syndrome) and/or PTSD (Post-Traumatic Stress Disorder). 2. if improvements or worsening of symptoms can be recorded with computerized and written tests for memory and thinking, and with questionnaires about the subject's quality of life and health. 3. determine the long-term outcome of the treatment. 4. confirm, in large numbers of study participants at multiple sites nationwide, the strong positive results obtained in pilot studies
This is a pilot trial to see if one or two 40 treatment courses of low pressure hyperbaric oxygen therapy can improve cognition and brain imaging in subjects with either chronic mild-moderate traumatic brain injury (TBI), also known as post-concussion syndrome (PCS) or chronic PCS with post-traumatic stress disorder (PTSD) secondary to blast injury.
Background: - Chronic traumatic encephalopathy (CTE) is a brain disease caused in part by head injury. The brain changes from CTE can only be seen at autopsy. Researchers want to test a new brain scan to help diagnose CTE in living patients. Objective: - To determine if a new type of brain scan can detect changes that occur in chronic traumatic encephalopathy. Eligibility: - Adults age 18 60 with previous head injury or participation in certain sports. Design: * Participants will be screened with: * Physical exam * Blood and urine tests * Tests of thinking, mood, and memory * 30-minute magnetic resonance imaging (MRI) brain scan. A magnetic field and radio waves take pictures of the brain. Participants will lie on a table that slides into a metal cylinder. They will get earplugs for the loud knocking sounds. * Visit 1: Participants will have a 70-minute PET scan of the brain with a small amount of a radioactive chemical. That will be injected through an intravenous tube (catheter) in each arm. A catheter will also be put into an artery at the wrist or elbow. * Participants will lie on a bed that slides in and out of a donut-shaped scanner. A plastic mask may be molded to their face and head. Vital signs and heart activity will be checked before and during the scan. * Blood and urine will be taken before and after the scan. * Participants will be checked on by phone the next day. * Visit 2: Participants will repeat Visit 1 with a different chemical and no artery catheter. * Visit 3: Participants may have a spinal tap. Some fluid will be removed by needle between the bones in the back.
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 study will explore the use of flortaucipir as a biomarker for chronic traumatic encephalopathy (CTE) and examine the relationship between clinical presentation and tau deposition.
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.
Years after a suffering a brain injury, individuals remain in a physically and cognitively impaired state. The investigators believe that the concentrations of amino acids in the blood are chronically altered and yield negative effects on the individuals health. Preliminary data has shown significantly lower concentrations of amino acids in serum samples from the TBI population, these diminished levels of amino acids may be due to changes in the microbiome. Understanding these changes will help guide rehabilitative services for this population. Individuals with a chronic brain injury will donate samples of blood, oral tissue, and fecal matter to be compared to that of non-injured individuals. Genetic information from the hosts will be striped and discarded; participant's genetic information will not be retained. To better understand changes in the microbiome, any history of antibiotics and probiotics will 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.
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 study will evaluate the safety and feasibility of near infrared therapy as an intervention for patients with refractory depression, anxiety, neurodegenerative disease, and traumatic brain injury.
This will be a multistate, multicenter clinical study to determine the efficacy and safety of medical cannabis for a wide variety of chronic medical conditions.
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 human clinical study involving the isolation of autologous bone marrow derived stem cells (BMSC) and transfer to the vascular system and inferior 1/3 of the nasal passages in order to determine if such a treatment will provide improvement in neurologic function for patients with certain neurologic conditions. http://mdstemcells.com/nest/
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 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.
This study will determine if allopregnanolone (ALLO) improves depression and pain symptoms in patients who have a history of mild traumatic brain injury (TBI) \[primary endpoints\]. The investigators will also determine if ALLO improves functional outcome \[secondary endpoint\]. Participants in this study will receive an intravenous infusion of either ALLO or placebo. Behavioral assessments will be conducted during the infusion and at several time points post-infusion.
The purpose of this study is to determine if carbamazepine reduces irritability and aggression among individuals with traumatic brain injury