View clinical trials related to Neuropathic Pain.
Filter by:This study is being conducted to assess the effects of GSK1014802 and a positive control, lidocaine, on tests of peripheral nerve excitability. This will be a double blind, placebo controlled, 4-period cross over study. Approximately 20 subjects will be randomised to one of two doses of a GSK1014802, lidocaine and placebo with at least 2 weeks between sessions. A follow-up will occur 7-15 days after the last dose. During treatment session 3 on the 6th October 2009, one subject had a pattern of AEs of severe intensity, suggestive of brain stem toxicity / encephalopathy during the lidocaine/saline infusion period. Although recognised in the literature when lidocaine was used in patients for treatment of pain, these AEs were unusual in studies in healthy subjects. The study was suspended to allow re-evaluation of the risk:benefit balance of lidocaine/saline infusion in healthy subjects in this study. It was decided that continuation of the use of lidocaine (positive control) would risk the safety of subjects. Continuation without the positive control was not possible as it would compromise the scientific integrity of the design.
Nowadays, available drugs cannot always produce pain relief in patients with neuropathic pain disease. It is believed that drugs acting as antagonists of the N-methyl-D-aspartic acid (NMDA) receptor may have been efficient in the treatment of neuropathic pain disorders. Ketamine is the only NMDA receptor antagonist commercially available in France. Ketamine is usually administered intravenously for surgical anesthesia. The intravenous administration of ketamine will be difficult to manage in the treatment of chronic neuropathic pain. Some trials using oral ketamine for the treatment of neuropathic pain were conducted but results were heterogeneous. This may be explained by the different range of ketamine doses tested. The aim of this clinical trial is to identify a safe and an efficient dose of orally administrated ketamine for the treatment of peripheral neuropathic pain. The clinical trial will be conducted in Toulouse Hospital, France. This study is a randomized, double-blind, placebo-controlled trial. The study will be conducted using 4 parallel groups (three doses of ketamine versus placebo).
This project will explore the safety and feasibility of performing a successful intravenous patient controlled analgesia (IV PCA) Oxymorphone titration and conversion to oral ER Oxymorphone (extended release or OPANA ER) in the outpatient setting.
The purpose of this study is to investigate if 28 days of treatment with AZD2066 compared to placebo can relieve the pain arising from the nervous system when the patients are touched by something that should not cause pain or have severe pain when they are touched by something that should only cause a little pain.
The investigators propose to compare plasma protein profiles for SCI patients with/without chronic neuropathic pain in order identify biomarker(s) that are associated with this medical condition. Secondly, the investigators propose to identify a temporal relationship to initial SCI at which these biomarkers manifest. Our working hypothesis is that sustained alterations in specific inflammatory molecules are associated with chronic neuropathic pain following SCI, and that their plasma levels can serve as biomarkers to identify patients at risk for the development of neuropathic pain. Additionally the investigators are collecting skin tissue biopsy samples from patients following acute and chronic spinal cord injury to create vector-free human iPS cells from fibroblasts by direct delivery of reprogramming proteins.
The purpose of this study is to determine if Oxymorphone Extended Release is effective and safe in treating chronic pain in patients with cancer or neuropathic pain.
The study will investigate characteristics of chronic pain after thoracotomy
This study is being conducted as a regulatory requirement post initial marketing authorization. This is primarily a safety study. This was an open label study and patients were enrolled once the decision to prescribe the medication was made by the Investigator.
Chemotherapy is often used to treat cancer and in many cases can cure it or extend life. Unfortunately many of the chemotherapeutic agents used in treating cancer can cause nerve damage, resulting in severe pain involving the extremities. This "neuropathic" pain causes significant suffering in cancer survivors and may also limit the amount of chemotherapy patients are able to tolerate in attempting to treat the cancer. There is evidence that cannabinoids can suppress chemotherapy evoked neuropathy in animal models, in some cases better than morphine. This study proposes to examine the effect of a cannabinoid extract (Sativex) in treatment of neuropathic pain caused by chemotherapy.
The objective of this study is to evaluate extent, location, and perception of paresthesia as a function of anode/cathode configuration.