View clinical trials related to Erythromelalgia.
Filter by:Erythromelalgia is a rare disorder characterized by red, warm, and painful extremities, which is often precipitated by warm conditions. The pathophysiology is incompletely understood. The management of pain in erythromelalgia is challenging as no single therapy has been found to be effective. Response to pharmacotherapy varies, meaning that the physician has to take a stepwise trial and error approach with each patient. Consequently, this disorder is often associated with poorer health-related quality of life. There is currently no consensus or guideline on management of pain in erythromelalgia. Spinal cord stimulation is a widely applied therapy to treat severe chronic pain of various origin. Case reports and anecdotal evidence suggest that this therapy might alleviate refractory pain in patients with erythromelalgia. The aim of this trial is to evaluate the efficacy of spinal cord stimulation for refractory pain in erythromelalgia.
To understand the pathophysiological basis of heritable pain syndromes. This will consist of a number of components: - Determine the genetic basis for heritable pain syndromes. - Investigate the pain symptoms, psychological co-morbidity and quality of life in patients with heritable pain syndromes. - Use quantitative sensory testing to investigate abnormalities in sensory processing. - Use imaging modalities to investigate the neural correlates of pain perception in heritable channelopathies. - In select patients to perform skin biopsy to determine if there has been any damage to C-fibres. - To perform skin biopsy in order to culture fibroblasts and neural crest stem cells for future studies into the molecular basis of altered pain perception. - To use neurophysiological tests, the axon reflex, and conditioning challenges to determine how peripheral nerves, in heritable channelopathies and unusual pain syndromes, have been altered. - Microneurographic recordings for directly detecting the function of pain fibres in peripheral nerves. Knowledge gained from the study will be used to aid the further development of genetic testing and specific pain questionnaires for the diagnosis of heritable pain syndromes secondary to channelopathies. - Ultimately better knowledge of underlying pathophysiology in these heritable pain conditions may inform the development of novel treatments.
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.