View clinical trials related to Encephalitis.
Filter by:This is a phase III multi-centre randomised, double blind, placebo controlled trial to assess the role of intravenous immunoglobulin in the treatment of children with encephalitis. The primary objective is to find out whether early use of IVIG treatment improves neurological outcomes of children with encephalitis. 308 children with encephalitis, aged 6 weeks to 16 years will be recruited in 30 hospitals in the United Kingdom. Participants will be randomised to receive two doses of IVIG or matching placebo in addition to other standard treatments, within the first five days of hospital admission. Each participant will be followed up for 12 months. During this period, information on clinical, radiological and laboratory investigations will be collected. Neurological outcomes will be assessed by the use of questionnaires at 6 and 12 months, and a neuropsychological assessment at 12 months.
Background: - Brain inflammation due to high alcohol intake may affect thinking, memory, and concentration. Researchers want to measure this using positron emission tomography (PET). Objective: - To study how excessive alcohol consumption affects brain function. Eligibility: - Adults 30-75 years old who are moderate or severe alcohol drinkers. - Healthy volunteers. Design: - Participants will be screened with medical history, physical exam, interview, and blood and urine tests. Their breath will be tested for alcohol and recent smoking. - Phase 1: - Participants will stay in the hospital 3 days. They will have blood and heart tests and daily urine tests. - A small plastic tube will be inserted by needle in each arm. One will go in a vein, the other in an artery. - Participants will have 2 PET scans with 2 different radioactive compounds. Participants will lie on a bed that slides in and out of the scanner with a cap on their head. - Participants will have magnetic resonance imaging (MRI) scans. Participants will lie in the scanner either resting with their eyes open or while performing an attention task. - Participants will have tests of memory, attention, concentration, and thinking. They may answer questions, take tests, and perform simple actions. - Phase 2 of the study will only be done if Phase 1 results show brain inflammation. - Phase 2 will repeat Phase 1. - For healthy volunteers, Phase 2 will begin 3 weeks after Phase 1. - Other volunteers must not have alcohol for at least 3 weeks and stay in a hospital up to 4-6 weeks between Phase 1 and Phase 2. After Phase 2, they will have 5 follow-up calls over 3 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.
West Nile virus (WNV) is considered an emerging virus in the United States, and infection can lead to severe illness in older adults. This study will evaluate the safety of and immune response to a live West Nile virus vaccine (WN/DEN4Δ30) for the prevention of West Nile encephalitis in adults 50 to 65 years old.
The purpose of this study is to determine whether there are persisting antibodies against Japanese Encephalitis 6 years after the last vaccination with IXIARO(R) and to adapt or confirm mathematical models accordingly.
Patients undergoing allogeneic blood and marrow transplantation (HSCT) experience a prolonged period of dysfunctional immunity. Systematic reimmunization is necessary at appropriate time intervals following transplantation to re-establish immunity. Vaccination practices after HSCT remain varied and data sparse. Tick-borne encephalitis (TBE) is one of the most severe infections of the central nervous system caused by a tick-borne flavivirus. There is no specific treatment, and prevention with the vaccine is the only intervention available. To assess the efficacy of TBE vaccination in adult allogeneic HSCT recipients compared to an age-matched and sex-matched control group of healthy volunteers without previous TBE vaccination, a prospective open-label phase II pilot study on humoral and cellular immune responses after use of TBE vaccine (FSME Immun) will be performed. As primary end point the outcome of the neutralization test (NT) against TBE will be assessed in a total of 26 HSCT patients one year after HSCT and in 26 healthy volunteers, namely four weeks after the second vaccination. Therefore, the number of subjects with NT titres against TBE virus >10, assumed to be the threshold for antibody-mediated protection will be evaluated. As secondary endpoints, antibody concentrations of TBE enzyme-linked immunosorbent assay before and four weeks after the second and third vaccination and antibody concentrations of NT against TBE four weeks after primary immunization. To evaluate cellular immune responses, lymphocyte proliferations assays and cytokine detection assays will be performed. In a subgroup analysis, these secondary endpoints will be compared between healthy volunteers, HSCT patients without immunosuppressive treatment and HSCT patients receiving immunosuppressive agents. Additionally, immune reconstitution by analysis of peripheral blood lymphocyte subsets and serum immunoglobulin levels will be evaluated prior to vaccination, after twelve weeks and prior to the third vaccination in HSCT patients only.
The Phase I study will assess the basic safety, tolerability, and immunogenicity of a DNA-based Venezuelan equine encephalitis virus (VEEV)vaccine candidate delivered by electroporation . The study will enroll 40 healthy adult volunteers ages 18-49 and will comprise evaluation of intradermal or intramuscular administration by electroporation. Administration of the vaccine candidate will be at two DNA dose levels (0.5 mg/ml and 2.0 mg/ml) for each route of administration. Electroporation will be administered using the TriGrid Delivery System devices for intramuscular and intradermal delivery. An additional group of subjects will serve as a placebo control, receiving injections of saline with electroporation. The overall goal of this study will be to determine if further human clinical studies of the vaccine candidate are warranted and, if so, to aid in the selection of dose and route of administration for future studies.
The aim of this study is to further characterize the safety profile of IMOJEV®. Primary Objective: - To describe serious adverse events (SAEs, including adverse events of special interest [AESIs]) up to 60 days after administration of one dose of IMOJEV®. Secondary Objective: - To describe Grade 3 (severe) systemic Adverse Events (AEs) up to 30 minutes after administration of one dose of IMOJEV®.
This study has aim to describe the immune response to the second dose of Japanese encephalitis chimeric vaccine (JECV) in children previously vaccinated with one dose of JECV 5 years ago.
Epidemic viral diseases have become more prevalent in recent years. Among the various strategies to prevent such epidemics, vaccination is the most cost-effective. However, populations that are immunized are typically already exposed to multiple previous vaccinations or natural infections. Studies from this and other laboratories have revealed that pre-existing dengue antibodies can either inhibit or enhance subsequent dengue infection depending on the pre-existing antibody levels. While cross-reactive antibody is potentially pathogenic in dengue, how it impacts immune response to vaccination is unclear. Indeed, aggregated at the site of vaccination and the respective draining lymph nodes are antigen-presenting and immune regulatory cells that express Fc receptors and play pivotal roles in determining the magnitude and polarity of the immune response. Vaccine uptake by these antigen-presenting cells may thus be either inhibited or enhanced when vaccines are opsonized with cross-reactive antibodies. In view of the limited knowledge on how cross-reactive antibodies affect vaccination outcome, investigators propose here a study that exploits the known cross reactivity between Japanese encephalitis (JE) virus antibody and yellow fever (YF) vaccine. Investigators hypothesize that cross-reactive antibodies impacts antibody response to YF at the point vaccination in a concentration-dependent manner by altering both vaccine uptake and the innate immune response by antigen presenting cells. Investigators will structure an open label clinical trial on sequential vaccination with JE and YF vaccines, with different time intervals between vaccinations. This would test immune response to YF vaccination in subjects with different titer of cross-reactive JE vaccine-derived antibodies.