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Active clinical trials for "Encephalitis"

Results 241-250 of 259

Antibody Response of a Boosted Japanese Encephalitis Chimeric Virus Vaccine (JE-CV) in Children...

Japanese Encephalitis

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.

Unknown status11 enrollment criteria

Nervous System Infections Among Patients With Febrile Seizure

SeizureFebrile Seizure2 more

Few studies dealing with the risk of infectious of nervous system and the utility of lumbar puncture and of emergent neuroimaging among patients with simple febrile seizure between 3 and 11 months age and with complex seizure has been reported. None of these studies was multicentric. Recommendations about management of these children are heterogeneous. The investigators aim to study by an observational retrospective multicentric study the rate of infectious of central nervous system among patients with a complex febrile seizure and among patients between 3 and 11 months age with simple febrile seizure.

Completed6 enrollment criteria

SouthEast Asia Encephalitis Project

Encephalitis

Encephalitis, an acute inflammation of the central nervous system associated with neurologic dysfunction is of public health concern worldwide, because of its high mortality and neurological sequelae rates. In Asia where many of the possible etiologies are of major public health concerns (i.e. dengue, Japanese encephalitis, West Nile virus, EV71), acute encephalitis is among the most frequent and severe causes of pediatric hospitalization. Despite extensive microbiological investigations, no pathogen is identified for a significant proportion of encephalitis patients in both industrialized and developing countries (28-85% of cases remain unconfirmed). Unknown and sometimes new emerging infectious agents may be responsible for cases of currently unknown etiology and an intensive effort to identify and characterize them is to be done. From this perspective, the Southeast Asian region, a particularly significant biodiversity hotspot, is at high risk for new pathogen emergence. Surveillance and diagnostic capabilities for encephalitis remain poor and still suffer from serious shortcomings in most Southeast Asian countries and beyond. Although the burden of non-infectious encephalitis in this region remains to be ascertained, the best laboratories only identify etiological infective agents in less than half of patients. Systematic data regarding the contribution of these diseases are lacking and to define the burden of these infections, to describe the full clinical spectrum and characteristics of acute central nervous system infections, and to develop diagnostic and therapeutic algorithms to improve patient care. The proposed project is an ambitious and multidisciplinary research consortium that aims to reduce the morbidity and mortality associated with infectious encephalitis in Southeast Asia (Cambodia, Laos, Vietnam and Myanmar) by improving diagnosis and medical care for patients. The SEAe project specific objectives are: To fill-in the biomedical knowledge gaps regarding acute encephalitis syndrome; To strengthen hospital laboratories capacities to enhance health by improving diagnosis and care for patients; To identify unknown pathogens responsible for encephalitis; To provide reliable information and a sustainable regional and sub-regional surveillance network to clinicians and public health stakeholders that will help them to better define prevention policies, vaccination strategy, and build preparedness to emerging infectious risks.

Unknown status6 enrollment criteria

Seroepidemiology of Japanese Encephalitis Virus Infection in Hualien, Taiwan

Japanese Encephalitis

Japanese encephalitis (JE) is one of important zoonotic infectious diseases in Taiwan. JE caused by Japanese encephalitis virus (JEV) which transmitted by Culex tritaeniorhynchus and used swine as amplifying host. Infections leading to overt encephalitis are estimated to be 1 in 1000 cases. Among JE confirmed cases, approximately 25 percent of cases die and 50 percent of the survivals develop permanent neurologic and/or psychiatric sequelae. JEV circulated in Taiwan are belonged to genotype III and the vaccine strain selected from same genotype. Genotype I JEV was first detected in northern Taiwan in 2008 by CDC, and the same genotype JEV were detected in mosquito collected in central Taiwan by our group. In order to study the genotypic shift of JEV in Taiwan areas, and the effects of the replacement of genotype on vaccine, we will conduct the JEV seroepidemiology in Hualien county which was the highest incidence of JEV in Taiwan. The aims of this study were: (1) study the circulating of genotype I JEV in Hualien county; (2) determine the virulence of genotype I JEV in human; (3) differential diagnosis of JEV genotype I or III infection among confirmed cases; (4) measure the cross neutralizing activity, after immunized with genotype III JEV vaccine, against genotype I JEV; (5) determine the age-specific seroprevalence of JEV antibody; (6) estimate the annual risk of infection for JEV.

Unknown status3 enrollment criteria

Core Cerebrospinal Fluid Biomarker Profile in Anti-Leucine Rich Glioma Inactivated 1 (Anti-LGI1)...

EncephalitisLGI1 Antibody Associated Encephalitis

Limbic encephalitis associated with anti leucine-rich glioma inactivated-1 LGI1 antibody (anti-LGI1) usually presents with seizures and progressive disturbance of memory and behavior. But anti-LGI1 associated encephalitis (LGI1-E) could present with a variety of features including an elective cognitive form of the disease, which mimicks a neurodegenerative condition such as Creutzfeld Jakob disease or rapidly progressive Alzheimer disease. In these patients, the appropriate diagnosis could be challenging. The primary aim of this study is to describe cerebrospinal fluid biomarkers in a cohort of LGI1-E patients as results of these markers are currently not described in LGI1-E. Moreover, patients with LGI1-E often present seizures. At this point, the impact on cerebrospinal fluid biomarkers has not been described in this condition. The secondary aims of this study are to compare cerebrospinal fluid (CSF) biomarkers in LGI1-E patients to these in other neurodegenerative conditions ( e.g. creutzfeld Jakob disease, Alzheimer disease), which are considered as a possible differential diagnosis in these patients. The last aim of this study is to look for correlations between cerebrospinal fluid biomarkers in LGI1-E and clinical data in these patients, especially seizure.

Unknown status5 enrollment criteria

Prospective Investigation of Oxidative Stress in West Nile Virus Infection

West Nile VirusWest Nile Fever7 more

The investigator hypothesizes that oxidative stress responses to West Nile virus infection in the central nervous system determine the severity of infection and the long-term neurological, neuropsychological and functional sequelae of West Nile Neuroinvasive Disease.

Withdrawn11 enrollment criteria

Fever After Tick Bite Study

Tick-Bite; FeverTick Fever4 more

The proposed study is a collaboration between Microbiology, SU/Sahlgrenska and the Infectious Diseases clinic at SU/Östra as well as several Infectious Diseases clinics throughout Sweden aiming at improving microbiological diagnostic assays regarding the early identification of tick-borne microorganisms (including as of yet unidentified pathogens) capable of causing human disease using modern diagnostic tools. At the initial study visit (day 0) plasma, serum, urine, saliva, and PBMCs (and tick, if available) will be collected from patients developing fever within two weeks after a tick bite. Additional follow-up samples will be obtained after 9 and 30 days as well as after 6 months. The initial samples will be analyzed using (a) directed multiplex PCR analysis for Tick-Borne Encephalitis (TBE), Borrelia, Anaplasma, Neoerlichia, Rickettsia, Coxiella, Tularemia, and Babesiosis in plasma, whole blood and urine, (b) conventional IgM and IgG serology for TBE, (c) "Next Generation Sequencing" (NGS) for the detection of bacterial 16s rRNA as well as unknown viruses, (d) potential biomarkers, and (e) host genetic factors. Among patients where initial sampling indicates the presence of a potential pathogen or in patients developing neurological symptoms, a lumbar puncture will be performed and CSF will be further analyzed. Samples will also be evaluated regarding potential microbiological factors predisposing for severity of infection. The primary objective of the study is to improve diagnostic tools in the initial early phase of infections caused by tick-borne pathogens, especially TBE prior to the affliction of the central nervous system, and to attempt to identify which factors impact the course of infection as it is believed that approximately 75% of infected individuals resolve their infection in this first phase whereas others develop meningoencephalitis with significant subsequent neurological sequelae. Secondary objectives of the study include investigating for the presence of and treating other tick-borne pathogens, setting the stage for coming clinical trials evaluating novel anti-viral therapies for TBE.

Unknown status8 enrollment criteria

Autoimmune Encephalitis With Anti-NMDA Receptor Antibodies Following Herpetic Encephalitis

Autoimmune EncephalitisAnti NMDA Receptor Encephalitis1 more

Herpes Simplex Virus encephalitis is the most common infectious encephalitis, with an estimated annual incidence of 1 / 250,000 to 1 / 500,000 in industrialized countries. Despite a widely used antiviral treatment, the prognosis remains poor with a mortality of 5 to 20% and a considerable morbidity rate. One of the contributing factors of bad prognosis is the development of encephalitis mediated by autoantibodies, most often directed against NMDA receptors, in the weeks following viral encephalitis. The description of this pathology is recent, the pathophysiology of this process remains poorly understood, and the management of these patients is not yet codified.

Unknown status3 enrollment criteria

Neurological Features During COVID19

Encephalitis

Description of the neurological impairment: clinico-radiological and electrophysilogical correlations

Unknown status7 enrollment criteria

Meningitis Encephalitis: a Metagenomics-Based Etiology & Epidemiology Research

Central Nervous System Infections and Inflammations

Autoimmune encephalitis (AE) is caused by abnormal immune response mediated by autoimmune antibodies of patients, which can be detected by a serial of autoimmune antibodies[4,5,6,7]. At present, the traditional infection diagnosis mainly relies on microbial culture method, which has the characteristics of long cycle, high cost, low detection rate and complex detection process. About 30-60% of encephalitis have unknown etiology[2,3]. On the other hand, the diagnosis and classification of noninfectious encephalitis mainly depend on the detection of autoimmune antibodies, the scope of diagnosis and differential diagnosis is limited, and the relationship between autoimmune encephalitis and infection factors is still unclear. Metagenomics sequencing (mNGS) is a new method that does not rely on microbial culture and can directly detect pathogenic nucleic acids. It has the characteristics of fast, accurate, high throughput, no preference for different pathogen detection, and can detect known and unknown pathogens at the same time. Nowadays, mNGS is widely used in the field of pathogen detection.

Unknown status27 enrollment criteria
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