View clinical trials related to Brain Diseases.
Filter by:The purpose of this study is to determine if FMT can reverse Hepatic Encephlopathy (HE) in cirrhotic patients who continue to have breakthrough episodes of HE despite maintenance therapy with lactulose and/or rifaximin or metronidazole.
The primary objective of the study is to determine the safety and feasibility of intrathecal administration of DUOC-01 as an adjunctive therapy in patients with inborn errors of metabolism who have evidence of early demyelinating disease in the central nervous system (CNS) who are undergoing standard treatment with unrelated umbilical cord blood transplantation (UCBT). The secondary objective of the study is to describe the efficacy of UCBT with intrathecal administration of DUOC-01 in these patients.
Hypoxic ischemic encephalopathy (HIE) occurs in ~ 2-4/1000 term infants and is a major cause of neonatal morbidity and mortality. To date, therapeutic hypothermia started within 6 h of birth is the only intervention known to be effective in reducing the morbidity and mortality of HIE. Hypothermia does not totally reverse the injury in many infants and is associated with side effects that may compromise its effectiveness. Low dose morphine is often used to reduce shivering in infants undergoing therapeutic hypothermia, but escalating doses of sedatives/analgesics are often required. Escalating doses of opioids and benzodiazepines causes respiratory depression and can either cause the need for or prolong mechanical ventilation.Agonists to the central a2 - adrenergic receptors are more effective at reducing postoperative shivering than opioid receptor agonists and provide analgesia and sedation without respiratory depression. The most desirable sedative-analgesic agent used in infants with HIE would: (a) have an excellent safety profile, (b) reduce shivering, (c) provide adequate analgesia and sedation, (d) cause minimal respiratory depression, (e) preserve cerebrovascular autoregulation, and (f) confer neuroprotection.
This is an expanded access use of Stiripentol in Dravet Syndrome or epileptic encephalopathies associated with sodium channel mutations who have failed other drugs in an effort to give them the best chance at seizure control and quality of life. As a treatment protocol and not a research study, children will only be monitored on a clinical basis for seizure improvement and side effects predominantly by parent and caregiver report.
The purpose of this study is to extend our previous work, in which we demonstrated an increase in the internal and cross network connectivity of resting state neural networks in patients with cerebral small vessel disease by treatment with hyperbaric oxygen, to at least 20 more individuals.
The primary objective of HOPE is to improve the accuracy of outcome prediction in anoxic-ischemic encephalopathy following cardiac arrest by bringing under close scrutiny some of the existing methods used for this purpose (e.g. somato-sensory evoked potentials). HOPE is the first multicenter prospective cohort study on coma prognosis to control for the effect of a possible self-fulfilling prophecy at the ICU and to cover the acute and neurorehabilitation phases with a long-term follow-up longer than the usual three or six months.
The hypothesis is that a subgroup of patients with Chronic Fatigue Syndrome/ Myalgic Encephalopathy (CFS/ME) have a chronically activated immune system and may benefit from B-lymphocyte treatment using the monoclonal anti-CD20 antibody rituximab with induction and maintenance treatment.
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.
There is increasing evidence that the pathophysiology of hepatic encephalopathy (HE) is tightly associated with low-grade cerebral edema. Uptake of ammonia in astrocytes leads to osmotic swelling caused by glutamine formation. Previous studies were performed in covert HE patients or used indirect methods. Methods: The investigators wish to describes quantitative measurement of localized water content using MRI water mapping in a cohort of patients with cirrhosis during an episode of overt HE type C and again after recovery. Furthermore patients with cirrhosis and no history of HE and healthy subjects will be investigated as controls.