Chronic Pain Rehabilitation in Patients With Small Fiber Neuropathy
Small Fiber NeuropathySmall fiber neuropathy (SFN) is a condition that is dominated by invalidating neuropathic pain. Pharmacological neuropathic pain treatment is often disappointing, since pain reduction is mostly slight and side effects can be debilitating. Although neuropathic pain is caused by a lesion of the somatosensory system, also psychological factors, such as fear and catastrophizing, appear to play a role in the origin and maintenance of disability in chronic pain. Rehabilitation based on pain education and cognitive behavioral treatment including elements of acceptance and commitment therapy, exposure in vivo or graded activity can be performed to influence these factors. To date no specific rehabilitation programs are available for patients diagnosed with SFN.
Detection of Small Fiber Neuropathies by the Non-invasive SUDOSCAN Method During Chronic Autoimmune...
Systemic Autoimmune PathologiesUnexplained Pain SyndromeVery few studies have evaluated the prevalence of small fiber neuropathy (SFN) during pathologies that may be responsible for small fibers damage. SUDOSCAN is a new rapid (2 minutes), automated, reproducible and non-invasive technology to assess small fiber neuropathy by sweat function. With quantitative and reproducible results, SUDOSCAN allows physicians to early detect and follow-up peripheral neuropathy to monitor disease progression and assess treatment efficacy for a better patient management. SUDOSCAN® could allow the identification of SFN in painful patients apart from another pathology already diagnosed responsible for SFN. The purpose of the study SUDOCU is to assess the prevalence of small fiber neuropathies (SFN) in patients with systemic autoimmune pathologies or unexplained pain syndrome.
fMRI-study in Patients With Small Fiber Neuropathy
Small Fiber NeuropathySmall 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.
IVIG in the Treatment of Autoimmune Small Fiber Neuropathy With TS-HDS, FGFR-3, or Plexin D1 Antibodies...
Small Fiber NeuropathyAutoimmune Small Fiber Neuropathy2 moreThis study will enroll patients with small fiber neuropathy (SFN). The study will look at an intravenous immunoglobulin (IVIG) called Panzyga. Panzyga is approved by the FDA as a therapy for Primary humoral immunodeficiency (PI) in patients 2 years of age and older; Chronic immune thrombocytopenia (ITP) in adults and Chronic inflammatory demyelinating polyneuropathy (CIDP) in adults. It has not been approved by the FDA for use in SFN. There is mounting evidence that Intravenous Immunoglobulin (IVIG) can cause pain reduction and improve objective nerve fiber densities on skin biopsies in great numbers in SFN patients. The primary outcome is quantified improvement in intraepidermal nerve fiber density (IENFD) on repeat skin punch biopsy after 6 months of IVIG treatment.
Biometric and Biological Data for Diagnosis and Therapy of Pain Patients
Small Fiber NeuropathyIn order to meet the challenge of an unambiguous diagnosis and effective therapy of SFN or the prognosis of susceptibility to the development of SFN, this project aims to create a data basis on which software will be developed during the project. This software should later be able to combine (integrate) quantifiable biometric data collected from the patient (both objectively measured and patient reported parameters) with the results of biological analyses of the patient's own nerve cells from stem cells. We expect that the patient-specific combination and correlation of biometric and biological data can lead to a significant improvement in the diagnosis, prognosis and therapy of chronic pain. The initial data collection required for the development of such a software (Bio2Integrate) will be carried out in three different project parts: Bio2Watch, Bio2Patient and Bio2Cell
Chronic Cough and Small Fiber Neuropathy
Chronic CoughType 2 DiabetesDiabetic 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.
Reference Values of Intraepidermal Nerve Fiber Density in Children and Small Fiber Neuropathy in...
Mitochondrial DiseasesDevelopmental Delay Disorder2 moreBackground: Small-Fiber-Neuropathy describes the degeneration of mildly or unmyelinated nerve fibers and causes neuropathic pain and autonomic dysfunction. Gold standard for the diagnosis is a small skin punch biopsy from the lower leg and the histological quantification of the intraepidermal nerve fiber density (IENFD). In children, the normal IENFD has not been systematically assessed and normal reference values are needed. In Parkinson´s disease, the neurodegeneration also affects the peripheral nerves and SFN is present already in the early stages. Whether neurodevelopmental disorders (NDDs) in childhood are likewise associated with SFN is largely unknown. The IENFD is age-dependent and declines with age. Aims: In this study, we are establishing the reference values for the physiological IENFD in children from 0-18 years. Moreover, we are investigating if children with NDDs have a reduced IENFD and if SNF is a clinically relevant cause of pain and autonomic dysfunction.
Detection of Small Fiber Neuropathy Using Skin Properties
Small Fiber NeuropathySmall fiber neuropathy affects millions of peoples worldwide. The neuropathy is causing disabling burning pain and dysautonomia such as dizziness with standing, brain fog, fatigue, constipation, too much or too little sweating. The detection of nerve damage is complicated and not widely available; it requires either skin biopsy or specialized equipment and training. This project utilizes the mathematical processing of skin pictures for the purpose to extract the statistical features related to loss of small fibers. This approach can improve the availability of diagnosis of small fiber neuropathy.
Diabetes, Falls, and Fractures
Diabetic Peripheral NeuropathyDiabetes7 moreComparing severity of diabetic peripheral neuropathy (small and large fibers including autonomic neuroapthy) to postural control and vestibular measurements
Autonomic Small Fiber Neuropathy and Ehlers Danlos Syndromes - Prospective Study and Registry
Autonomic NeuropathyEhlers-Danlos Syndrome Hypermobility Type2 moreWe examine patients with different autonomic neuropathies and Ehlers Danlos syndromes compared to healthy controls at three different points over time (baseline, after 3 months and after 1.5 years) to gain knowledge about the course of this disease and understand its pathophysiology, with a focus on Small Fiber neuropathy. Moreover we will validate the german version of the Malmö POTS Score and establish an easy diagnostic scheme for patients in outpatient care.