View clinical trials related to Encephalitis.
Filter by:The aim of this study is to establish a real-world clinical neuroimmune disease research cohort, to follow up and observe the prognosis of patients with different subtypes and subgroups, and to provide support for the treatment, early warning, and outcome prediction research of neuroimmune diseases.
Seizure is one of the most common symptoms in autoimmune encephalitis with neuronal surface-mediated antibodies. Interestingly, some patients may exhibit new-onset seizures as the initial manifestation without fulminant sign of encephalitis, particularly in the early stage. It is essential to recognize these patients early and to perform antibody testing, as studies have reported early immunotherapy can improve their clinical outcomes. At the same time, it is important to limit the number of patients who require testing, for the sake of specificity and cost effectiveness. Thus, this prospective, multicenter study aims to identify neural antibodies in patients with focal seizures of unknown etiology, and to create a score to preselect patients requiring autoantibody testing.
This is a single-arm, non-randomized, open-label post-marketing safety observation study. The purpose of this study is to investigate the safety of JEV-I given with primary immunization in a large amount of healthy children aged 8 months and older.
Glutamic acid decarboxylase (GAD) is an enzyme whose function in the body is to decarboxylate glutamate to GABA. GAD65 antibodies (GAD65Ab) have been associated with type-1 diabetes (80% of new-onset patients) and various neurological conditions, mainly stiff-person syndrome (SPS/PERM), cerebellar ataxia (CA), limbic encephalitis (LE) and temporal lobe epilepsy. These syndromes all seem to result from a reduced transmission of GABA. These neurological conditions are rare and can cause symptoms like confusion, memory loss, muscle stiffness, muscle spasms, behavioural disorders, and pharmacoresistant epilepsy. When finding high levels of GAD65-Ab in the serum, a cerebrospinal fluid (CSF) sample should be taken to look for oligoclonal IgG bands and intrathecal GAD-Ab production to prove an auto-immune cause for the various neurological symptoms.
This is a phase IV, randomized, controlled, open-label study proceed in healthy children aged 8 months in China. The primary objective is to demonstrate the immunogenicity of simultaneous administration of JEV-I and MMR is not inferior to that of separate administration, as measured by seroconversion rates and antibody titers against the four antigens. The secondary objective is to describe the safety of the vaccines when administered simultaneously or separately.
Patients with acute severe brain injury are usually admitted to the Intensive Care Unit. A substantial proportion of these patients will have disorders of consciousness (DOC) after interruption of sedation. It is difficult to reliably predict neurological outcome in these patients. Dependent on the extent of permanently damaged brain areas, DOC in patients with acute severe brain injury may improve or persist, eventually evolving into a minimal conscious state (MCS) or unresponsive wakefulness syndrome (UWS). These conditions are accompanied by long term severe disability. In current practice, the decision to withdraw life-sustaining support is made by interpreting the results of repeated bedside neurological examination and conventional CT-brain imaging. Reliable identification of patients with a possible good outcome, in whom treatment should not be withdrawn, is difficult. In this prospective observational cohort study we aim to identify patients with a good neurological outcome.
Anti-CASPR2 limbic encephalitis (CASPR2-LE) is a rare neurological disorder primarily affecting males over the age of 50. It is mediated by an autoimmune antibody response in the central nervous system (CNS) against the cellular adhesion molecule contactin-associated protein-like 2 (CASPR2). This protein plays an important role in the trafficking of KV1 channels under the myelin sheath in the juxtaparanodal region of myelinated axons. It is mostly present in the neurons of the limbic system, basal ganglia, and other motor related and sensation areas (Qin, Yang, Zhu, Wang, & Shan, 2021). This distribution explains the diverse clinical manifestations of the disease, primarily characterized by cognitive impairment. Other manifestations include cerebellar ataxia, hyperkinetic movement disorders (HMDs), seizures, and neuropathic pain, which all typically develop around 10.4 months after onset. At last visit, memory impairment is seen in 69% of the patients, cerebellar ataxia in 42% of the patients, and functional dependency in 25% of the patients. Even though most patients' symptoms improve with immune-active treatments, up to 69% of them have long-term memory impairments due to damage to hippocampal structures (Benoit et al., 2023). Research has primarily focused on understanding the disease's clinical features, underlying mechanisms, and potential treatment options. On the other hand, it is shown that MRIs performed at baseline show signal changes in the hippocampus in 62-71% of the patients, and these changes are subject to variations in subsequent follow-up scans, that differ widely among patients as mentioned before (Bien et al., 2017). And since the dynamics of hippocampal volume changes and its association with the development of hippocampal atrophy and long-term cognitive impairment are not well studied yet in CASPR2-LE, we primarily aim to examine the longitudinal changes of hippocampal volume in anti-CASPR2 Limbic Encephalitis (CASPR2-LE) patients to examine whether it correlates to the development of anterograde amnesia and hippocampal atrophy on follow-up.
The encephalitis mediated by antibodies against the NMDA receptor (NMDARe) predominantly affects young adults and children resulting in severe neurologic and psychiatric deficits. After overcoming the acute stage, patients are left with long-lasting behavioral, cognitive, and psychiatric alterations with important socio-family-economical implications. Here investigators postulate that a better knowledge of this stage will improve treatment decisions and outcome. In Aim 1, the post-acute stage will be clinically characterized, tools to remotely follow cognitive, behavioral and psychiatric deficits will be provided, and the impact of cognitive rehabilitation will be assessed. In Aim 2, biomarkers (autoimmune, inflammatory, neuronal injury) will be identified as signatures of the acute and post-acute stages. In Aim 3, a mouse model of NMDARe will be used to determine the underlying mechanisms and treatment of the postacute stage.
Anti-leucine-rich glioma-inactivated 1 (LGI1) encephalitis has been increasingly identified as the second most common type of autoimmune encephalitis after anti-N-methyl-D-aspartate receptor (NMDAR) encephalitis. It presents with acute or subacute onset of epileptic seizures, anterograde amnesia, behavior disturbances, sleep disorders and hyponatremia. In most patients with anti-LGI1 encephalitis, immunotherapy is successful in treating the encephalitis. However, relapses, chronic epilepsy, cognitive declines and psychiatric problems have been reported in some cases. So far, prospective studies to evaluate its clinical outcomes still remain limited. In this project, the investigators will use clinical features and advanced paraclinical examinations to prospectively investigate the clinical outcomes and the associated factors in patients with anti-LGI1 encephalitis.
Prospective cohort study evaluating FDG PET in 56 patients with confirmed autoimmune encephalitis - based on 2016 Graus criteria, and 2021 paraneoplastic neurological syndromes criteria - at the acute phase, before immunomodulating treatment, or within 10 days of treatment initiation.