View clinical trials related to Encephalitis.
Filter by:This is a multi-center case-control study that aims to define the association between the exposure to an arbovirus infection and the development of a neurological syndrome in patients from Colombia. The study makes part of the Neurovirus Emerging in the Americas Study (NEAS) that is a collaborative effort that looks to combine the efforts of researchers, healthcare providers and patients in Colombia to establish a comprehensive registry of the clinical, radiological and laboratory profile of patients with new onset of neurological diseases associated mosquito-borne viruses, known as arboviruses.
A study of the study vaccine (JECEVAX- VABIOTECH-Vietnam) and a licensed vaccine (JEVAX-VABIOTECH-Vietnam) is conducted in Vietnamese children, aged 9 to 24 months to assess the safety of the study vaccine compares to licenced vaccine. Two hundred and twenty children are enrolled and randomly assigned into 2 groups (110 children/group), each of which receive 2 doses of study / control vaccine subcutaneously, at 28-34 days interval. Safety data included immediate reaction at the injection site and systemic reaction within 30 min of administration, solicited and unsolicited adverse events occurs from the 1st dose to 28-34 days after first dose and from the second dose to 28-34 days after 2nd dose. SAE (from start of first dose to 28-34 days after second dose).
Prospective observational multicenter study in European ICUs. All patients admitted to the ICU for probable or confirmed Acute encephalitis (2013 IDSA - Infectious Disease Society of America criteria) will be included. Factors associated with a poor prognosis will be identified by multivariate analysis using a logistic regression.
The protocol is to draw peripheral blood from healthy volunteers for in vitro studies. The aims of these in vitro studies are to determine the cellular and intracellular mechanisms by which hypertonic saline and ATP release regulate neutrophil and lymphocyte functions.
In a number of neuropsychiatric disorders such as depression, both brain inflammation and glutamate mediated excitotoxicity (cell death through over-activated stimulation) are suspected to play a key role. It is difficult, if not impossible, to determine the potential destructiveness of the inflammatory response seen in disease states by studying the brain's inflammatory cells (microglia) activity in isolation. The investigators are proposing to develop the means to concurrently study inflammatory response (i.e., microglial activity) and its potentially devastating consequence (i.e., glutamate excitotoxicity) across the entire brain in order to establish the importance of inflammation. In this study the investigators propose a phased clinical study whereby the early-phase involves the development of our capacity to study inflammation-mediated damage to brain cells, followed by a feasibility study in patients with clinical depression that tests whether concurrent inflammation and glutamate excess could be measured in key brain regions associated with a depressed mood state.
The purpose of the study is to perform the re-examination of IMOJEV® in routine clinical settings in accordance with the Ministry of Food and Drug Safety regulation. Primary objective: - To describe the safety profile of the first dose of IMOJEV® administered under routine health care visit as primary vaccination or as booster.
This study aims to use a clinically validated metagenomic next-generation sequencing (mNGS) assay to provide a demonstration of precision medicine for diagnosis of acute infectious disease in hospitalized patients. From June 2016 to June 2017, 200 patients will be enrolled from multiple hospitals in California and outside of California. Patients will be evaluated to determine the impact on the mNGS assay on diagnostic yield, hospital costs and clinical outcomes.
Introduction: Acute encephalitis (AE) is a severe neurological disorder associated with significant morbidity and mortality. Approximately 50% of patients with AE require ICU admission because of coma, seizures or acute respiratory failure. Determinants of neurological prognosis in these patients are not known. Objectives: Main objective: To identify determinants of outcome in adult patients admitted to the ICU; Secondary objectives: a) To study the impact of diagnostic studies (Brain MRI, CSF analysis, EEG) on neurologic outcome; b) to describe the epidemiology of patients admitted to the ICU with AE; c) to study the impact of early appropriate therapy on neurologic outcomes; d) to describe morbidity and mortality associated with AE at 90 days and 1 year following diagnosis. Methods: prospective observational multicenter study in French ICUs. All patients admitted to the ICU for probable or confirmed AE (2013 IDSA criteria)with a Glasgow coma scale score < or =to 13 will be eligible for inclusion. Factors associated with a poor prognosis at 90 days will be identified by multivariable logistic regression analysis. Duration of study: 30 months (recruitment 18 months, follow-up 12 months). Patients: 300 patients Endpoints: - Primary endpoint: The primary endpoint is the modified Rankin scale score 90 days following onset of abnormal status (GCS < or =13). This score will be determined by contacting the patient. A poor outcome will be defined as a mRS >2 at 90 days. - Secondary endpoints: a) neurological findings within 7 days following onset of altered mental status; b) abnormal findings on diagnostic studies (MRI, EEG, CSF analysis) within7 days following onset of altered mental status; c) Time between onset of altered mental status and completion of diagnostic studies; d)Time between onset of altered mental status and start of appropriate specific therapy; e) neurologic outcomes at 1 year mRS score and extended Glasgow outcome scale (GOS); f) causes of death in non-survivors at 1 year; g) quality of life and posttraumatic stress at 1 year: IADL and SF36 scales;
Neurological and psychiatric diseases are one of the major health problems worldwide. Decades of fundamental and clinical research have led to the model that these disorders results from synaptic imbalance between excitatory, inhibitory and modulatory systems in key brain structures. Although the network and neurotransmitter systems involved have been delineated, the mechanisms leading to improper neurotransmissions remain poorly understood. One major limitation lays in the difficulty to transpose the identified dysregulation in humans to relevant animal models in which molecular and cellular targets can be manipulated. The amino-acid glutamate mediates the vast majority of excitatory neurotransmission in the mammalian brain. We know that the glutamatergic synapses can change their strength by regulating surface expression and dynamics of their postsynaptic receptors, through changes in receptor recycling and/or lateral diffusion. This synaptic plasticity underlies higher cognitive functions such as learning and memory and is likely compromised in several disease states. Regulating glutamate receptor number and function is thus of primary importance. New subcellular imaging technique rendered possible the study of receptor trafficking and receptor regulation in various conditions including pathological models opening new fundamental questions. Moreover, recent breakthroughs on glutamate receptor structure offer unprecedented clues on the molecular and structural mechanisms underpinning receptor dysfunction at the atomic level. Recently, description of encephalitis associated with specific autoantibodies (Abs) directed against neuronal synaptic receptors or proteins (NSA-Abs) opens new lights in the pathophysiological mechanisms of some human brain disorders. The best example and the most frequent syndrome is the synaptic autoimmune encephalitis associated with autoantibodies against extracellular domains of the glutamatergic NMDA receptor (NMDAR-Abs). Classically, patients first present psychiatric symptoms with hallucinations and bizarre behavior before development of neurological symptoms such as seizures, dyskinesia, and autonomic instability. Despite the severity of neuropsychiatric symptoms, more than 80% of patients fully recover after immunomodulatory treatments and many arguments suggest a direct role of NMDAR-Abs in the symptoms. The investigators recently demonstrated that NMDAR-Abs directly modify, at the synaptic level, NMDAR lateral diffusion by disruption of the interaction between NMDAR and EphrinB2 receptor, a synaptic protein anchoring NMDAR at the synapse (Mikasova et al, Brain 2012; Dupuis et al, EMBOJ 2014). These data suggest that NMDAR-Abs could directly participate in the neuropsychiatric disorders observed in patients and that NMDAR dysfunctions could be directly responsible for the observed symptoms. Furthermore, these data suggest that other NSA-Abs directed against other synaptic proteins could explain specific neurological symptoms in patients with encephalitis that are not associated with NMDAR-Abs. The aim of MECANO is to combine multidisciplinary approaches (clinical, immunological, and neurobiological ones) to identify new NSA-Abs, to characterize their specific pathological roles and to decipher acute and chronic NMDAR-Abs effects on biophysical and structural properties of the NMDA receptor, synaptic plasticity, neuronal morphology, and cognitive performance. This project should provide key insights onto the effects of patients' NSA-Abs on the cellular dynamic and regulation of synaptic proteins or receptors and on the molecular cascades activated during synapse dysfunction. The investigators will investigate how NSA-Abs binding alter receptor activity, modify surface receptor mobility and dynamically regulate the maturation of synapses and circuitries. For that purpose, The investigators will use a unique combination of high-resolution imaging (single nanoparticle tracking), receptor engineering, cellular electrophysiology, computational (structural modeling) and cellular and molecular biology approaches and finally behaviour assays. Based on both cutting-edge neurobiology and clinical expertise of autoimmune disorders, and strengthened by promising preliminary experiments, the MECANO project will likely open new avenues of fundamental research in the understanding of synaptic dysfunction and clinical research for the treatment of neuropsychiatric disorders.
This study aims to provide evidence that co-administration of measles-mumps-rubella vaccine (MMR) and live attenuated SA 14-14-2 Japanese encephalitis vaccine (CD-JEV) does not adversely affect immunogenicity or safety.