View clinical trials related to Polyradiculoneuropathy.
Filter by: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.
The main purpose of this study is to assess the clinical feasibility of diffusion tensor imaging (DTI) for the diagnosis of chronic inflammatory demyelinating polyradiculoneuropathy (CIDP). For thar purpose, investigator will compare, fractional anisotropy (FA) obtained by diffusion tensor imaging (DTI) MRI 3T on brachial plexus and cervical spinal nerve roots between patients with defined Chronic Inflammatory Demyelinating Polyradiculoneuropathy (CIDP), according to the EFNS 2010 criteria, and healthy controls. The secondary outcomes will be to compare DTI parameters (FA, ADC or Apparent Diffusion Coefficient) between CIDP patients, healthy volunteers, and patients with Charcot Marie Tooth disease type 1a (CMT1a) and MRI morphological parameters (T1, STIR) between these groups. Moreover, investigator will investigate the possible relationship between MRI parameters, clinical indices, and electrophysiological measure.
This phase 1 single ascending dose study will provide a first in human assessment of safety and tolerability of PF-06755347 in healthy adult males as well as adult males and females with Immune Thrombocytopenia (ITP). Pharmacokinetics and pharmacodynamics will also be evaluated.
The use of nerve ultrasound for the diagnosis and monitoring of neuromuscular diseases is a promising growing field (1). Non-invasive and painless, ultrasound provides additional data electroneuromyography (EMG), with a spatial resolution at least as good as MRI, while being easily accessible and inexpensive.The polyradiculoneuritis Inflammatory Demyelinating Chronicles (IPDC), Neuropathies Motrices in Multifocal Conduction Blocks (NMMBC) and neuropathy associated with anti-MAG antibodies are among the major chronic inflammatory neuropathies with an autoimmune etiology. The diagnosis of these pathologies is based on the clinic, diagnostic tests and EMG. The interest not only in the diagnosis, but also for monitoring these pathologies using ultrasound analysis nerves has been demonstrated recently in several studies. However the limited resolution of current ultrasound images do not allow detailed study of the internal structure of the nerves which could later help deepen knowledge in this innovative field and can better understand the pathophysiological mechanism of the evolution of these pathologies . To do this, the investigators have available a UHF ultrasound in the ultrasound department of the Nice University Hospital Pasteur Hospital 2 The investigators realize a descriptive analysis study, pilot, mono-centric, multi and prospective on patients followed in the center with a diagnosis of IPDC, a NMMBC or neuropathy with anti-MAG antibodies and control subjects matched by age and sex. All the patients and controls in this study will receive a briefing and must sign an informed consent. They realize an ultrasound study of the nerve, using an ultra high frequency ultrasound system that will allow the assessment of anatomical structures of nerve (size, structure, vascularisation and assessment booklets). Ultrasound data will, in a second stage, compared with the data obtained with the EMG and clinical scores obtained using clinical rating scales. 40 subjects will be included, divided into four subgroups: 10 subjects with a diagnosis of IPDC (1), 10 subjects with a diagnosis of NMMBC (2), 10 subjects with a diagnosis of neuropathy antibody-anti MAG (3) and 10 control subjects with no signs of neuropathy at the EMG examination.
Adults with Chronic Inflammatory Demyelinating Polyradiculoneuropathy (CIDP) who have completed study 161403 will be able to take part in this study. The main aim of the study is to evaluate side effects in the long-term treatment with HYQVIA/HyQvia. All participants will receive HYQVIA/HyQvia in the same way as they were receiving in study 161403. The dosing interval of HYQVIA/HyQvia can be adjusted after 12 weeks of treatment in study 161505 if the study doctor determines that it is safe to do so. Participants will visit the clinic within 1 week after the first and second dose of HYQVIA/HyQvia and then every 12 weeks for the duration of the study.
Chronic Inflammatory Demyelinating Polyradiculoneuropathy (CIDP) is an acquired neuropathy characterized by an inflammatory multifocal segmental demyelination. Due to the clinical heterogeneity of this condition and the lack of specific marker that can reliably identify all patients, the diagnosis of CIDP remains difficult. Similarly, there are no clear factors predicting the evolution or the prognosis of the disease. Current treatments are the intravenous immunoglobulin (IVIg), corticoids and plasma exchange; IVIg therapy being the most commonly used. Responses of the patients to the treatments are variable. Thus, it is necessary to identify predictive markers of the therapeutic response of CIDP patients treated by IVIg. Several potential biomarkers have been proposed recently, but none of them has yet been validated as a predictive criterion for therapeutic response. It is therefore necessary to continue to investigate several biological parameters to identify a reliable biological marker. In electromyography, the Motor Unit Number Index (MUNIX) technique allows measuring the axonal loss by a precise count of functional motor units. This method, more sensitive than the measure of the Compound Muscle Action Potential (CMAP), is rarely used in CIDP. MUNIX might be a good tool to better characterize the patients and to follow the course of CIDP. It also might be a new sensitive and reliable marker predictive of the therapeutic response. Magnetic resonance Imaging (MRI) is increasingly used for the assessment of neuromuscular diseases. A recent study on CIDP patients reported a significant decrease of the muscle Magnetisation Transfer Ratio (MTR) compared to healthy subjects, correlated to clinical parameters. The use of advances MRI techniques could allow characterizing the structure and composition of muscle and nerve tissues of CIDP patients. It could also be a mean for identifying potential new markers, largely unexplored until now, that might be sensitive to disease course and/or IVIg response. The objective of this study is to identify predictive markers of the treatment response of CIDP patients receiving IVIg. This is a prospective observational exploratory study of a cohort of 30 CIDP patients treated with IVIg and followed-up during one year.
The main objective of the study is to explore and map brain areas involved in processing and perception in patients suffering from neurological pathologies and condition. The investigators hypothesize for example, that a change (compare to healthy subjects) in the perceptual maps and body representation could be detected and characterize in patients suffering from impairments of peripheral nerve conduction.
This study aims analyze the transcriptome to identify predictive biomarkers of IVIG in CIDP patients. 25 patients with a diagnosis of CIDP according to European criteria, naïve of treatment, will be included and followed for 1 year. Clinical assessment (RT-MRC ; Martin vigorimeter, RT-mISS,R-ODS,TW25, 9hole-peg test) will be performed at baseline and at 3, 6 and 12 months after the first IVIG course. Responder/No responder status will be defined at 3 month and confirmed at 12 months. Blood samples will be collected before the IVIG course at baseline, and at 2months and 6 months. At the end of the first IVIG course a blood sample will be collected to assess early changes of transcriptome. The CIDP diagnosis and responder/no responder status will be confirmed by an independent committee. The transcriptome of the patients will be individually analyzed and compared regarding Responder/Non responder status to a control groups of 20 healthy subjects
The aim of this study is to learn more about the following treatment options in adults with CIDP: - Subcutaneous self-infusion with HyQvia. - Intravenous infusion with Gammagard/Kiovig. Gammagard and Kiovig are the brand names for the same immunoglobulin compound. The study is in two parts. In Part 1, participants receive either HyQvia or a placebo subcutaneously. In Part 2 (only for participants who have a CIPD relapse during Part 1), participants will receive Gammagard Liquid/Kiovig intravenously. US participants will receive Gamunex-C. The first SC infusion will be given in the study clinic. The remaining SC infusions may be given in the study clinic or the participant's home. This will be decided by the study doctor and whether the participant or their caregiver can do the self-infusion.
Chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) is an immune-mediated disorder of peripheral nerves. Intravenous immunoglobulins (IVIg) are a first line therapy for CIDP. The investigators used a transcriptomic approach to compare the gene expression profiles in the peripheral blood of patients having a CIDP or autoimmune diseases, before and after IVIg treatment, in order to identify their mechanism of action in this condition, to lead to a better understanding of CIDP pathophysiology, and potentially determine factors associated with the response to the treatment.