View clinical trials related to Autoimmune Encephalitis.
Filter by:Autoimmune encephalitis (AE) and paraneoplastic neurological syndromes (PNS) are rare neuroimmune syndromes with a wide range of clinical presentation but without pathognomonic clinical sign facilitating the diagnosis. A lot of differential diagnoses are possible such as neurodegenerative diseases or viral infections. Although rare the diagnosis of AE or PNS is essential because despite severe neurological symptoms, patients can be cured by appropriate immunotherapy. Autoantibodies highly specific of AE and PNS has been described in the serum and cerebrospinal fluid of the patients and can be used as biomarkers of the disease. Their presence can predict an autoimmune origin and in many cases a good prognosis after immunotherapy. However, if some autoantibodies are now well-characterized and industrial kits have been developed to detect them, in numerous cases of highly suspect AE or PNS no specific autoantibodies are identified leading frequently to an inappropriate treatment. Furthermore, as the mechanisms of AE and PNS is still unknown, treatments are not optimal and in some cases inefficient. There is no prognosis biomarker able to predict the patient's sensitivity to immunotherapy and there are only few clues to know how the immune system can provoke the neuropsychiatric symptoms observed in the patients.
First described in 2010, GABA-B-receptor antibodies-associated encephalitis is a disease with a severe vital and functional prognosis. Indeed, functional status is mostly altered by encephalitis and it induced consequences while vital status is mostly engaged by cancer very often associated in the course of the disease, mostly small-cell lung cancer (SCLC). While knowledge is growing on clinical features at each stage of the disease, long-term outcome data is still lacking even if known to be pejorative. In this study, we aimed to describe long-term follow up of all patients who were diagnosed a GABAb-receptor antibodies-associated encephalitis in the French Paraneoplastic Neurological Syndrome Reference Center until now.
Autoimmune encephalitis (AE) and paraneoplastic neurological syndromes (PNS) are rare neuroimmune syndromes with a wide range of clinical presentation but without pathognomonic clinical sign facilitating the diagnosis. A lot of differential diagnoses are possible such as neurodegenerative diseases or viral infections. Although rare the diagnosis of AE or PNS is essential because despite severe neurological symptoms, patients can be cured by appropriate immunotherapy. Autoantibodies highly specific of AE and PNS has been described in the serum and cerebrospinal fluid of the patients and can be used as biomarkers of the disease. Their presence can predict an autoimmune origin and in many cases a good prognosis after immunotherapy. However, if some autoantibodies are now well-characterized and industrial kits have been developed to detect them, in numerous cases of highly suspect AE or PNS no specific autoantibodies are identified leading frequently to an inappropriate treatment. Furthermore, as the mechanisms of AE and PNS is still unknown, treatments are not optimal and in some cases inefficient. There is no prognosis biomarker able to predict the patient's sensitivity to immunotherapy and there are only few clues to know how the immune system can provoke the neuropsychiatric symptoms observed in the patients. The investigators will use this project to better characterize AE and PNS patients to identify new diagnostic and prognostic biomarkers and develop new diagnostic tools.
Epilepsy is a disorder of the brain in which people have repeated seizures. Autoimmune encephalitis (AE) is a rare cause of epilepsy. It is an inflammatory disease of the brain. This means that the body's own immune system attacks healthy brain tissue, just like it would if it were infected by a virus or a bacteria, by producing an army of proteins called 'antibodies' which go on to 'attack' healthy tissues. Seizures in AE typically do not respond well to classic 'anti-seizure medications'. Instead, medications which suppress the immune system are used. These can have significant side-effects and some patients will still continue to have seizures or experience a recurrence of AE-related epilepsy despite treatment. It is difficult to accurately predict who will experience these outcomes. This study aims to find ways of predicting and monitoring which people with AE are at greatest risk of these outcomes, so we can better direct them towards appropriate treatments. We will collect clinical information and samples of blood and cerebrospinal fluid (CSF, fluid surrounding the brain and spinal cord) from people with AE and 'control' participants with other neurological illnesses. Samples will be analysed for markers which may help predict or correlate with outcomes in AE and better understand this condition.
Paraneoplastic neurological syndromes (PNS) are rare complications of cancer occurring in 0.01% of cases. Their clinical, biological and radiological presentation is heterogeneous and may constitute a diagnostic challenge. Anti-Ma2 PNS are rare diseases with a guarded prognosis. They are most often associated with a seminoma-like testicular tumor but can also be associated with lung cancer. Classically, they present as limbic, diencephalic and/or brainstem encephalitis. Anti-Ma2 antibodies target intracellular receptors and are characteristic of a particular form of encephalitis. Atypical manifestations including narcolepsy-cataplexy, weight gain, sexual dysfunction and motor neuron syndrome have been described and explain the difficulty in diagnosing anti-Ma2 associated PNS. It seems interesting to better characterize the phenotypes of Ma2 patients in order to optimize the diagnosis and follow-up.
Previously, scholars called the seizures secondary to autoimmune encephalitis(AE) "autoimmune related epilepsy", but the seizures secondary to AE are usually controlled after the improvement of encephalitis, which does not meet the "persistent" characteristics of epilepsy. Only a subset of patients with seizures lasting several years require long-term Antiseizure medications (ASM). In 2020, the International Coalition against Epilepsy classified it as "acute symptomatic seizure secondary to AE". ASSAE) and autoimmune-associated epilepsy (AAE) . The former is caused by AE, which has clinical manifestations of AE at the same time as epileptic seizures at the beginning or recurrence. The proportion and type of epileptic seizures are different due to different causes, and epileptic seizures are also controlled after the disease is controlled. The latter is that after adequate immunotherapy, there are still persistent seizures, and there is no obvious evidence of inflammatory activity, this type of patient application ASM and immunotherapy is not effective. Secondly, with the deepening of AE research, gradually found that some AAE can still be ASMs cure, such as carbamazepine, ocasepine, lakaosamine. On the one hand, it works by influencing cellular and humoral immune responses. On the other hand, effectiveness of sodium channel blockers in focal epilepsy. Lacosamide is a slow sodium channel blocker that belongs to the third generation of ASM. It has a short half-life and can be quickly increased to an effective dose with a low incidence of adverse reactions. Therefore, the investigators chose to add oral antiepileptic therapy with lacosamide in AAE populations to observe efficacy and safety.
Autoimmune encephalitis is brain inflammation caused by the immune system mistakenly reacting against proteins in the brain. The commonest form is called NMDAR-antibody encephalitis (N-methyl-D-aspartate receptor antibody encephalitis), a rare condition which mainly affects children and young people and causes difficulties in memory, thinking and mental health which can have significant long-term impacts on education, employment and quality of life. In this project we will use advanced magnetic resonance imaging (MRI) to measure changes in the structure, function and chemistry of the brains of children and young people who are in early recovery from NMDAR-antibody encephalitis and other forms of immune-mediated encephalitis. We will investigate if MRI measurements in patients differ from those in healthy people, and if they can help predict patient outcome one year later, assessed by tests of memory, thinking, mental health and functioning in daily life.
Autoimmune encephalitis are characterized by the subacute development of memory deficits, altered mental status, and psychiatric symptoms, generally in association with anti-neuronal antibodies. Two main groups of autoimmune encephalitis may be distinguished based on the location of the targeted antigen: 1) Intracellular antigens, in which the antibodies are thought not to be pathogenic, and the disorders are usually strongly associated with cancer, constituting therefore paraneoplastic neurological syndromes; 2) Synaptic proteins and surface receptors, in which the antibodies are pathogenic and the frequency of cancer is variable depending on the antibody and the demographic characteristics of the patient. Encephalitis with antibodies against N-methy-D-aspartate receptor is the most common autoimmune encephalitis, being even more frequent than infectious etiologies. It is characterized by subacute onset of memory deficits, psychiatric symptoms, speech dysfunction, seizures, movement disorders, decreased level of consciousness, dysautonomia and central hypoventilation. Nearly 50% of women with anti-NMDAR encephalitis have an ovarian teratoma, while associated tumors in elderly patients are usually carcinomas. In contrast, most cases in children and young men are non-paraneoplastic. Recently, herpes-simplex encephalitis has been described as another trigger of NMDAR encephalitis. Conversely, for the vast majority of the non-paraneoplastic autoimmune encephalitis, no acquired triggers have been described so far. In addition to acquired susceptibility, genetic predisposition may also be important in the pathogenesis of autoimmune encephalitis. The human leukocyte antigen (HLA) is the genetic factor most frequently associated with autoimmune diseases, and it has been already linked to a few autoimmune encephalitis, such as anti-leucine rich glioma inactivated 1 (LGI1), contactin-associated protein-like 2 (CASPR2), IgLON5, and glutamic acid decarboxylase 65 (GAD65) encephalitis. However, no HLA association has been reported for NMDAR encephalitis, suggesting that in this condition, and likely in others, non-HLA loci might be involved in the pathogenesis as well. Genome-wide association studies (GWAS) are useful tools to identify variants at genomic loci that are associated with complex diseases, and in particular, to detect associations between single-nucleotide polymorphisms (SNPs) and diseases. The aim of the study is to detect genetic variants in NMDAR encephalitis and other autoimmune encephalitis.
To compare the efficacy and safety of NPB-01 in patients with autoimmune encephalitis refractory to steroid pulse therapy using steroid pulse therapy as a control.
Autoimmune encephalitis (AE) are characterized by subacute onset of memory deficits, altered mental status or psychiatric symptoms, frequently associated with seizures, inflammatory cerebrospinal fluid and in cases with prominent limbic involvement, typical magnetic resonance imaging. Several autoantibodies (Abs) may be detected in AE, although its detection is not mandatory to establish a diagnosis. These Abs mainly recognize different synaptic and cell-surface proteins in the central nervous system, and are thought to be pathogenic as they alter the normal location or function of its antigens. Paraneoplastic neurological syndromes (PNS) are immune-mediated, remote complications of cancer. The clinical presentation is highly diverse, from central nervous system disorders (limbic encephalitis, cerebellar ataxia) to peripheral neuropathies and neuromuscular junction diseases. Two different kinds of Abs are associated with PNS: a first group known as onconeural Abs, which recognize intracellular antigens and are thought not to be pathogenic; and a second one whose targeted synaptic and cell-surface antigens shared with some non-paraneoplastic AE. The primary trigger of the immune response is unknown for most of AE. In addition to acquired susceptibility such as herpes simplex encephalitis, genetic predisposition may also be important in the pathogenesis of AE. Human leukocyte antigen (HLA) is the genetic factor most frequently associated with autoimmune diseases, due to its genetic complexity and key role in the adaptive immune response. Others and we already described the HLA haplotypes associated with three types different of AE: anti-leucine-rich glioma inactivated 1 (LGI1), anti-contactin-associated protein-like 2 (CASPR2), and anti-glutamic acid decarboxylase (GAD). Nevertheless, the genetic predisposition of many other AE has not been investigated yet. Cancer is considered as the trigger of the immune response that lead to PNS development, as the neural antigens recognized by the onconeural Abs are also expressed by tumor cells. Nevertheless, it is still unknown why some patients develop PNS and others do not, even if they present the same histological type of tumor, suggesting that some particular, maybe genetic, characteristics of the patients may play a role in this susceptibility. Furthermore, there is already evidence that, for those neurological diseases that may appear either as PNS or as non-paraneoplastic autoimmune disorder (i.e. Lambert-Eaton myasthenic syndrome), HLA profiles are not the same.