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Small Fiber Neuropathy clinical trials

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NCT ID: NCT03889080 Recruiting - Clinical trials for Small Fiber Neuropathy

fMRI-study in Patients With Small Fiber Neuropathy

Start date: October 5, 2018
Phase:
Study type: Observational

Small fiber neuropathy (SFN) is a form of peripheral neuropathy, which is characterized by neuropathic pain and autonomic dysfunction. Mutations in SCN9A, the gene encoding for the voltage-gated sodium channel NaV1.7, are associated with SFN. SCN9A-associated SFN often results in chronic neuropathic pain, which is difficult to treat. Chronic neuropathic pain may cause structural and functional changes in the brain. Until now, only one small study examined the structural and functional changes of the brain in SFN patients. No studies have been performed in strictly defined SFN patients. Therefore, it would be interesting to explore whether in SFN patients with an SCN9A mutation, the genotype will lead to a distinct brain activation pattern on functional MRI (fMRI) and if the integrity or structural connectivity of the brain is altered using diffusion tensor imaging (DTI). This may provide a better understanding of the pathophysiological pathways for chronic pain and might serve as a biomarker for evaluating therapy. The objective of this study is to explore whether there is an indication whether patients with SCN9A-associated SFN have an abnormal brain activation pattern on resting state fMRI and during advanced thermal stimulation and altered structural connectivity on DTI versus SFN patients without a mutation and versus age- and gender-matched healthy controls. With this knowledge, objective pain measurement for patients with SFN may serve as a biomarker in evaluating efficacy of targeted therapy.

NCT ID: NCT03787511 Recruiting - Type 2 Diabetes Clinical Trials

Chronic Cough and Small Fiber Neuropathy

CHROCOS
Start date: March 5, 2019
Phase: N/A
Study type: Interventional

Diabetic patients with and without chronic cough will be included in this study. After giving their informed consent, the patients will perform a spirometry, chest X-ray at the inclusion visit. Cough will be assessed using the cough visual analog scale (VAS) and the Leicester Cough Questionnaire (LCQ). Within 60 days, the patient will perform neurophysiological tests. The neurophysiological assessment will be concluded with a skin biopsy to evaluate small fiber neuropathy. The aim of the study is to compare the proportion of small fiber neuropathy between diabetic patients with chronic cough and those without chronic cough.

NCT ID: NCT03509064 Recruiting - Quality of Life Clinical Trials

Medico-economic and Quality of Life Impact of Sjogren-associated Small Fiber Neuropathy

SFINESS-QoLEco
Start date: January 11, 2019
Phase:
Study type: Observational

BACKGROUND Sjögren's syndrome is an autoimmune disease whose prevalence is estimated between 200 and 500 patients per 100,000 persons in France (120 to 500,000 patients). It affects women (90%) between 40 and 60 years of age and main manifestations are generalized sicca syndrome (ocular, oral, cutaneous) and arthralgia. In 20% of cases, Sjögren's syndrome is associated with peripheral neuropathies, and the most common form is painful small fiber neuropathy (SFN). SFNs are mainly featured by neuropathic pain including burns (90%), numbness (87.5%), tingling (72.5%), electric shocks (70%) and tingling (82.5%) and also autonomic disorders (50 to 70%). However, there are still important issues that deserve to be investigated by clinical and basic research. Among these issues, this study will focus on: - The impact of SFN on the quality of life of patients with Sjögren's syndrome. - The medico-economic impact of the SFN taking into account the repercussions on the quality of life, including professional life, usual care cost (analgesics, medical and paramedical consultations, hospitalizations or emergency). EXPECTED RESULTS - Confirmation of the major impairment in the quality of life of patients with Sjogren-associated SFN - Analysis of correlations to highlight or not clinical or biological factors associated with quality of life impairment. - Evaluation of the cost attributed to the presence of an SFN in patients with Sjögren's syndrome and the pharmaco-economic interest of conventional therapeutic management (analgesic treatment, consultation pain) compared to the cost of more aggressive immunomodulatory treatments.

NCT ID: NCT03347669 Recruiting - Fibromyalgia Clinical Trials

A Pilot Study of Small Fiber Neuropathy Prevalence in Fibromyalgia Patients Compared to Healthy Subjects Using Sudoscan®

NEFI
Start date: November 6, 2017
Phase: N/A
Study type: Interventional

Fibromyalgia (FM) is characterized by chronic diffuse pain and affects 0.5 to 5% of the population, with a higher prevalence in women1. This condition is characterized by joint and muscle pain, also associated with fatigue, migraine, sleeps disorders, depression and irritable bowel syndrome2. The presentation of these various symptoms varies greatly from one patient to another, with great heterogeneity in clinical, physical, social, psychological and therapeutic responses. . A recent parliamentary inquiry report called for recognition of the disease and recommended to build a unified care path for patients; a collective expertise is led by INSERM to help in patient care. Faced with the heterogeneity of FM, several international studies have attempted to identify subgroups of patients based essentially on clinical symptoms of the disease3-8, including a recent Korean study of 313 patients9, which suggested four groups, but with methodological limitations, not taking into account the new criteria10 for evaluating FM. Recent studies have also shown that there is a peripheral neuropathic component in the mechanisms of this pathology, demonstrated by a decrease in the density of the epidermal nerve fibers11-12, called small fiber neuropathy (SFN) neuropathy. It is an attack of small sensory and sympathetic nerve fibers, causing pain, paresthesia as well as disturbances of the autonomous system. Other studies also suggested that a significant proportion of patients diagnosed with fibromyalgia had SFN, demonstrated by cutaneous biopsy13-14 or confocal microscopy of the cornea15. A new device, the Sudoscan®, makes it possible to detect a SFN much simpler, faster and less invasive than the technique of ophthalmology or biopsy. Although this Sudoscan® test has been used extensively in conditions such as diabetes16-19, no study has been used to assess the presence of SFN in FM. The aim of this pilot study is to identify the prevalence of SFN in FM patients, using this new non-invasive device, in order to have a better defined representation of the prevalence of small-fiber neuropathy in an FM population compared to a group of healthy volunteer matched in age, sex, BMI and by menopausal status for women.

NCT ID: NCT02435004 Recruiting - Clinical trials for Neuropathy Small Fibre

Dorsal Root Ganglion Stimulation for the Management of Painful Intractable Small Fibre Neuropathy:

NSI-TD-002
Start date: April 2015
Phase: N/A
Study type: Interventional

A prospective, single-arm, mono-centre pilot study to obtain preliminary information on the ability of Dorsal Root Ganglion Stimulation (DRGS) in alleviating the painful symptoms in patients with small fiber neuropathy (SFN).

NCT ID: NCT01524666 Recruiting - Clinical trials for Peripheral Neuropathy

Nutritional Supplementation With Agmatine Sulfate During Small Fiber Neuropathy

Start date: February 2012
Phase: N/A
Study type: Observational

This is a nonblinded Case-only study that evaluates the effects of Agmatine Sulfate on small fiber peripheral neuropathy. Patients will be started on Agmatine sulfate (a metabolite of Arginine) and monitored for two months. Improvement will be noted on their response to the Neuropathic Pain Questionnaire. Additionally the investigators will note improvement by performing autonomic function testing at the beginning and end of the study.

NCT ID: NCT01078857 Recruiting - Clinical trials for Chronic Kidney Disease

Small-fiber Neuropathy in Chronic Kidney Disease

Start date: February 2009
Phase: N/A
Study type: Interventional

Neurological dysfunction is a common complication of late stage chronic kidney disease (CKD) and peripheral nerve system is often involved in such complication. Sensory disturbances such as paresthesia and hypoesthesia are the predominant symptoms in uremic polyneuropathy and it is traditionally thought the uremic polyneuropathy mainly involve large-diameter sensory nerves. However in uremic patients the abnormal thermal thresholds, the sensory symptoms like numbness, burning, paradoxical heat, cold or freezing, and pain, and the frequent symptoms of autonomic dysfunction suggest that small-fiber neuropathy should be a clinical entity in patients of CKD. But there are still few investigations with emphasis on the changes of small-fiber nerves in CKD, and little is known about the characteristics and mechanism of small-fiber neuropathy in CKD. Skin biopsy with evaluation of epidermal nerve density and the morphology of epidermal nerves and the subepidermal nerve plexus is an effective and minimally invasive test for assessment of small-fiber neuropathy. Contact heat evoked potential (CHEP) recording the brain responses evoked by contact heat stimuli on the skin is a non-invasive technique to investigate the thermo-nociceptive pathways mediated by small-fiber nerves. In the current study, we will use an integrated approach by combining the skin biopsy, quantitative sensory testing, autonomic function tests, and CHEP to investigate the pathological, psychophysical and physiological aspects of small-fiber neuropathy in patients of CKD. The aims of the current study is to address the following issues: (1) the changes of small fiber nerves in uremia and CKD of different stage; (2) the correlation of skin innervation with clinical manifestations, thermal thresholds, and autonomic function; (3) the influence of dialysis therapy, the type of dialysis therapy, or renal transplantation on the small fiber neuropathy in uremia; (4) the roles of blood chemical substances, metals, and endocrine profiles on the development of small-fiber neuropathy; (5) the relationship between the small-fiber neuropathy and pruritus or restless leg syndrome; and (6) the pathological and physiological correlates of painful symptoms by skin biopsy and CHEP in CKD related neuropathy. The results of the study will provide important insights in the understanding of the pathogenesis, and the prevention and new treatments of small-fiber neuropathy in CKD.