Active clinical trials for "Polyradiculoneuropathy"

Antibody-mediated idiopathic inflammatory diseases of the nervous system (also known as autoimmune diseases of the nervous system) are autoimmune diseases in which autoimmune cells and immune molecules attack the nervous system as the main pathogenic mechanism. In the immune response, pathogenic antibodies acting on autoantigens of the nervous system are collectively referred to as autoantibodies of the nervous system, and antibody-mediated idiopathic inflammatory diseases of the nervous system can occur in the central nervous system, peripheral nervous system, and neuromuscular junctions , and muscles. In this study, we will recruit three kinds of autoimmune diseases of nervous system including Neuromyelitis Optica Spectrum Disorder (NMOSD), Myasthenia Gravis (MG), Chronic Inflammatory Demyelinating Polyradiculoneuropathy (CIDP) and Immune-Mediated Necrotizing Myopathy (IMNM). B-cell maturation antigen (BCMA) is expressed on the surface of plasma cells, thus making it an ideal target for targeted therapies. Chimeric antigen receptor (CAR) T cells against BCMA offers another potential therapeutic option to eliminate plasma cells in patients with neurological autoimmune diseases driven by abnormal antibody who still suffer recurrent attacks from conventional treatments. In the current study, the safety and efficacy of a novel CAR-T cell therapy using CT103A cells, are evaluated in patients with relapsed/refractory antibody-mediated idiopathic inflammatory diseases.

Primary Objectives: Part A: Efficacy of SAR445088 across three subpopulations of CIDP patients: standard of care (SOC)-Treated, SOC-Refractory and SOC-Naive Part B:Long-term safety and tolerability of SAR445088 in CIDP Secondary Objectives: Part A: Safety and tolerability of SAR445088 in CIDP Immunogenicity of SAR445088 Efficacy of SAR445088 with overlapping SOC (SOC-Treated group) Part B: Durability of efficacy during long-term treatment with SAR445088 in CIDP Long-term immunogenicity of SAR445088 in CIDP

The main purpose of this study is to evaluate the safety and efficacy of nipocalimab compared to placebo in delaying relapse in adults with chronic inflammatory demyelinating polyneuropathy (CIDP) who initially respond to nipocalimab in Stage A.

Safety and Efficacy of Different PANZYGA Dose Regimens in Pediatric Chronic Inflammatory Demyelinating Polyradiculoneuropathy (CIDP) Patients

The main aim of the study is to check for side effects from TAK-771, and to check how well TAK-771 controls symptoms in Japanese participants with chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) and multifocal motor neuropathy (MMN) The participants will be treated with TAK-771 for 45 months as a maximum. There will be many clinic visits. The number of visits will depend on the infusion cycles of study drug (every 2, 3, or 4 weeks).

Chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) is a chronic and often disabling neuropathy that often responds to immune therapies. A few phenotypes have been identified even if it is unclear whether they are variants of CIDP or different diseases considering their relatively different responses to therapy. Antibodies against proteins at the node of Ranvier, including contactin 1 and neurofascin 155, have been reported in up to 10% of the patients and were associated to a poor response to CIDP therapy but a positive response to Rituximab supporting the heterogeneity of CIDP. We will examine these antibodies in a large population of Italian CIDP patients included in a Database and correlate their presence with the clinical and electrophysiological features of the neuropathy, its progression and response to therapy. We will perform an open label prospective therapeutic study with Rituximab in patients with CIDP not responsive to conventional immune therapies and will correlate the response to therapy to the clinical phenotype and the presence of anti-neural antibodies.This may lead to a more appropriate choice of therapy in CIDP avoiding the use of expensive and possibly ineffective therapy. We will also collect the biological samples (serum and when available CSF) of the patients with CIDP and store them to allow the formation of a biological bank that may be used in future immunological studies to clarify the pathogenesis a of the disease and possibly to identify biomarkers of the disease and of response to therapy. This study will permit to collect a sufficiently large number of adequately and homogeneously examined patients with CIDP, with different antibody reactivities and with unsatisfactory response to therapy. This will permit to have sufficiently large number of patients to perform an open-label study with Rituximab whose efficacy has been so far reported only in anecdotal reports on small number of patients.

CIDP and MMN are part of a group of chronic inflammatory conditions that affect the peripheral nervous system. In CIDP, there is chronic inflammation of the peripheral nerves and nerve roots leading to demyelination. The myelin sheath is vital in the rapid propagation of nerve impulses between the central nervous system and the peripheral sensory receptors and muscles. By definition CIDP must progress over 8 or more weeks and can either have a slowly progressive disease course or a relapsing course with periods of improvement. Patients typically present with a non-length dependent neuropathy that affects motor (i.e. weakness of proximal or distal muscles, fatigue, swallowing difficulty, double vision, breathing difficulties etc) and sensory function. MMN is a similar condition to CIDP. It is an autoimmune demyelinating neuropathy that leads to slowly progressive asymmetrical weakness that worsens over years without treatment. IVIg is a recognised treatment for CIDP and MMN. A standard starting dose of 2 g/kg/course, spread over 2-5 days, has been widely used in both research and clinical practice. Due to the chronic nature of CIDP and MMN, most patients with these conditions require repeated doses to avoid relapse, but the frequency of courses and the total dose of IVIg per course required to achieve a steady state varies between patients. Given the modest risks involved with IVIg and its cost, the lowest possible dose and frequency of administration are preferred. Current strategies to reduce dose and frequency involve assessing clinical response to lower doses, but this is both time consuming and imprecise.

This is safety study. Subjects will be undergoing the surgical procedure of nerve biopsy. After routine surgery without grafting, patients develop swelling, redness, tenderness and dysesthesia at the biopsy site. In order to determine whether grafting is safe compared to not repairing the nerve, it is necessary to compare treated vs. untreated patients using systematic, sensitive and reproducible criteria.

Chronic inflammatory demyelinating polyradiculoneuritis (CIDP) is an autoimmune disorder of the peripheral nervous system, most commonly affecting the myelin sheath. The pathophysiology of CIDP is not completely understood, but both humoral and cellular immunity appear to be involved in the genesis of this disease. Some diseases are particularly associated with CIDP such as diabetes, monoclonal gammopathies and hematological diseases. CIDP can occur before, after or simultaneously with the onset of systemic diseases. The systemic diseases most often seen in association with polyneuropathies are lupus, Gougerot-Sjögren's syndrome and sarcoidosis. Ultrasound of peripheral nerves is a useful and accessible tool. In CIDP, this examination can reveal diffuse or segmental nerve hypertrophy. In addition to the size of the nerve, this exploration analyzes the echogenicity and the aspect of the different fascicles within the nerve. S. Goedee et al have shown that nerve ultrasound has very good diagnostic parameters and low interobserver variability in the diagnosis of CIDP. F. Härtig et al suggests that nerve ultrasound can predict the therapeutic response and describes 3 main patterns: hypoechoic enlargement (active inflammation), nerve enlargement with hyperechoic add-on fascicles (axonal degeneration) and almost no enlargement ("cured" CIDP).

The nodes of Ranvier contain ion channels that enable the rapid propagation of the nerve impulse. Cell adhesion molecules and glycolipids play an important role in the formation of the nodes of Ranvier. Antibodies against glycolipids are detected in half of patients with Guillain-Barré syndrome, an acute inflammatory neuropathy affecting peripheral nerve. The investigators found that antibodies target cell adhesion molecules at nodes of Ranvier in 10% of patients with chronic inflammatory demyelinating neuropathy (CIDP), another disabling neuromuscular disease affecting peripheral nerves. In the majority of patients with GBS or CIDP, the mechanisms responsible for the neuromuscular disorders are unknown. Our goals are to identify novel targets of antibodies in patients, this in order to find novel bio-markers and to better understand the physiopathology of inflammatory neuropathies. This work will help patient diagnosis and treatment orientation.