View clinical trials related to Encephalitis.
Filter by:This study was undertaken to assess the immunogenicity and safety of a booster dose of JE-CV after primary vaccination with SA14-14-2 in Thai children aged 1 to <5 years. In addition, to assess the impact of the duration interval after primary vaccination on subsequent booster response.
This study aims to understand the persistence of the Japanese encephalitis (JE) antibody response in previously vaccinated children. The proposed study will enrol Bangladeshi children who had previously participated in a lot to lot consistency study (JEV05; NCT01567865) of JE live attenuated SA 14-14-2 vaccine (CD-JEV).
Allergic patients especially those undergoing de-sensitization treatment have an altered immune responsiveness. The investigators aim to find out whether this influences immune responses to primary and booster vaccinations.
The purpose of this study is to describe the immunogenicity and safety of IMOJEV® in adult and pediatric populations in Vietnam and serve a bridging study to compare immunogenicity, reactogenicity, and safety data obtained with IMOJEV® in the Vietnamese population with data from other Asian pediatric populations. Primary objective: - To describe the safety profile of a single dose of IMOJEV®. Secondary objectives: - To evaluate the immune response to JE 28 days after the administration of a single dose of IMOJEV® in healthy Vietnamese subjects aged from 9 months to 60 years.
This phase II trial studies how well donor cytotoxic T lymphocytes work in treating patients with malignancies with BK and/or JC virus. Cytotoxic T lymphocytes are made from donated blood cells that are grown in the laboratory and are designed to kill viruses that can cause infections in transplant patients and may be an effective treatment in patients with malignancies with BK and/or JC virus.
This study is being conducted to collect safety and immunogenicity data for the WEE vaccine, TSI-GSD 210. Enrollment in this protocol is offered for personnel who enter areas where this virus is used in research or is endemic (an area where this disease process is found to occur frequently).
In Slovenia, tick-borne encephalitis and Lyme borreliosis are both endemic diseases with high incidence rates and they are both transmitted by a bite of infected Ixodes ricinus tick. In clinical practice, tick-borne encephalitis is confirmed by demonstration of tick-borne encephalitis antibodies in serum of a patient with compatible clinical presentation and cerebrospinal pleocytosis. Patients with Lyme meningitis or meningoradiculitis also have cerebrospinal pleocytosis, however the presence of borrelial antibodies in serum does not attest Lyme neuroborreliosis. Patients with tick-borne encephalitis and positive borrelial antibodies in serum, but not fulfilling criteria for Lyme neuroborreliosis, are often being treated with antibiotics in several European countries due to the possibility of double infection. The investigators hypothesise that such patients do not benefit from antibiotics. Such an approach may appear safe regarding the possibility of borrelial infection, however it can also be associated with detrimental consequences such as antibiotic related adverse reactions, negative epidemiological impact on bacterial resistance, and intravenous catheter related complications.
Anti N-methyl-D-aspartate receptor encephalitis is an autoimmune encephalitis,found in recent years,producing the specific IgG antibody induced by the NMDA receptors.It is the most common curable disease among the non infectious-autoimmune encephalitis,usually has been misdiagnosed as other causes of encephalitis.Our previous study found that there are differences between the Chinese and the foreign in anti-NMDA receptor encephalitis such as the sex ratio, the rate of combined tumor and clinical manifestations.As a new found disease,the incidence rate has been underestimated.Therefore,to establish the Registry Research Database for Chinese group of anti-NMDA receptor encephalitis is imminent.This study will combine Beijing area's hospitals and foreign experts,depending on multicenter, prospective and registry method,to understand the incidence in Beijing area,to summarize and analyze the clinical data of patients.So,there will make a solid foundation for the subsequent Beijing area detection platform and other research.
Japanese encephalitis (JE) is an acute viral zoonotic disease. Neurologic manifestations of the disease range from subtle changes in behavior to serious problems, including blindness, ataxia, weakness, and movement disorders. The Japanese encephalitis virus (JEV) occurs primarily in Southeast Asian. It is spread by culicine mosquitoes, most often Culex tritaeniorhynchus. Its incubation period is 5 to 15 days.In China, JE epidemic peak season is from June to August and it mainly occurred in children. JE has ranked in top ten infectious diseases according to either incidence or mortality. JE vaccines are used to protect the population especially young children and infants from encephalitis diseases. Live attenuated JE vaccines are now widely used. They are directly produced from attenuated virus which may increase the possibility of virulence reversion. Many developed countries are using purified model inactivated JE vaccine. Therefore, it is an inevitable trend in China to develop a new generation of safer and more effective inactivated vaccine to prevent and control epidemic encephalitis.
The risk for tick borne encephalitis increases in Sweden. Together with an increased awareness of the possibility to acquire protection by vaccination, this has led to an increase in the number of doses of the vaccine distributed in Sweden each year - now being approximately 400.000. The first year, two doses with an interval of 1 month is recommended for the general population, followed by a third dose approximately one year later and an additional booster dose three years after the third. Preliminary results from a previous study showed a higher percentage protected (=titer at least 10) after 3 doses than after 2 doses (Rombo et al. EUDRA CT 2011 001348-31, unpublished information). In the same study, there were no differences between those who were vaccinated 0+7+21 compared to 0+30+90. The investigators were surprised to find marked differences between 2 and 3 doses also in the younger control group. The investigators therefore aim to confirm results in a new study and to add a group with a double dose at day 0 and then a single dose at day 30 and 360