View clinical trials related to Small Fiber Neuropathy.
Filter by:Sudoscan™ (Impeto Medical, Paris France) uses electrochemical skin conductance as a novel noninvasive method to detect sudomotor dysfunction. Several small studies have recently shown that Sudoscan use in the assessment of small fiber polyneuropathy (in diabetes mellitus) can be performed non-invasively, quickly and effectively. The investigators aim to study the use of Sudoscan in rare disease condition associated with small fiber polyneuropathy.
Small fibre neuropathy (SFN) is a disorder in which selectively thinly myelinated and unmyelinated nerve fibres are involved. SFN can cause severe and chronic symptoms such as burning pain in the extremities in combination with autonomic symptoms. So far, the results of symptomatic SFN treatment have been rather disappointing, despite the fact that new agents have been developed. This study is a pilot study to investigate whether Spinal Cord Stimulation (SCS) combined with best (drug) treatment as usual (TAU) leads to clinically significant pain relief in patients suffering from pain in the lower limbs due to SFN, defined as ≥30% pain reduction on a mean NRS during daytime, and/or ≥30% pain reduction on a mean NRS during night-time, and/or at least much improved or very much improved, on the Patient Global Impression of Change (PGIC) for pain and sleep.
Small fiber neuropathy (SFN) is the most common cause of neuropathic pain in peripheral neuropathies, with a prevalence of at least 53/100.000. Patients with SFN may have excruciating pain and current anti-neuropathic and other pain drugs do not relief pain substantially. Several studies suggested an immunological basis in SFN and case studies have reported efficacy of treatment with intravenous immunoglobulin (IVIg) in patients with SFN. It is therefore conceivable that immunological mechanisms play a role in idiopathic SFN (I-SFN). However, to date no randomized controlled study with IVIg in patients with SFN has been performed. The aim of the current study is to investigate the efficacy and safety of IVIg in patients with I-SFN in a randomized, double-blind, placebo-controlled study. The objective of the study is to evaluate the efficacy of IVIg treatment (4 courses of treatment, 3 weeks apart) compared to placebo on pain alleviation.
The purpose of this study is to assess safety and efficacy of treatment with pregabalin in patients with idiopathic small fiber neuropathy proven by skin biopsy.This is an enriched enrollment randomized withdrawal study that comprises 4 phases: a screening and selection phase, a washout period from previous pain medication for enriched enrollment, an 8 week single blind pregabalin treatment phase; and a 4 week randomized withdrawal phase.
Small fiber neuropathy (SFN) is a common disorder, which has a profound negative impact on quality of life because of severe neuropathic pain. To reliably establish a diagnosis of SFN is challenging, since neurological examination and nerve conduction studies are often normal. Autofluorescent flavoprotein imaging (AFI) is an optical method through which neuronal activity in the termination area of small nerve fibers in the spinal cord can be quantified. Since the epidermis also contains a high density of small nerve terminals and since the number of intraepidermal nerve fibers is greatly reduced in patients with SFN, our hypothesis is that AFI intensity is reduced in patients with SFN. To support this hypothesis, a pilot study is required in which the investigators first need to confirm the precision of AFI in the epidermis of the third finger of 10 healthy volunteers. Secondly, lidocaine/prilocaine cream will be used as a negative control. Finally, the AFI signal will be measured after application of a 8% capsaicin patch, through which (temporarily) a selective reduction of small nerve fibers can be induced, mimicking SFN. Using this experimental design, the investigators will be able to test the reliability and validity of AFI for capsaicin-induced small nerve fiber degeneration. This would be a significant step in developing an objective, rapid and non-invasive diagnostic tool to diagnose patients with SFN, which may also be utilized as a biomarker in studies that assess the efficacy of novel treatments for SFN.
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).
Lacosamide is a functionalized amino acid with antinociceptive properties in inflammatory and neuropathic pain, and displays a unique mechanism: it enhances slow inactivation of Nav1.3, Nav1.7, and Nav1.8. Nav1.7 is expressed predominantly in nociceptive and sympathetic neurons. Gain-of-function mutations have been described in Nav1.7 that result in extreme pain disorders such as SCN9A-associated small fiber neuropathy. In the disease states genetically linked to a gain-of-function of Nav1.7, the sodium channel is mutated to increase the sodium influx resulting in a hyperexcitable sensory neuron, and a resultant sensation of pain. The objective of the study is to determine the efficacy and safety of lacosamide, a sodium channel blocker, in patients with pain due to SCN9A-associated small fiber neuropathy.
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.
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.
Idiopathic Small Fiber Neuropathy (called SFN for short), is a condition where nerves that sense pain have become damaged, and often painful. SFN pain is common, and it can affect sleep, memory, health and overall quality of life. Pregabalin is a drug commonly used to treat painful conditions, like nerve pain. It has been available to doctors for many years, and many studies have been performed to evaluate its effectiveness. In these studies, pregabalin has been shown to be very effective in the treatment of nerve pain, with fewer side effects than many other medications currently available. The purpose of the study is to determine if pregabalin relieves pain more effectively than a pill containing no medication (called a placebo). The study will also investigate any side effects as well as the effectiveness and safety of the medication.