Active clinical trials for "Neuralgia"

The goal of this clinical trial is to test perineural injections (injections around a nerve) of incobotulinumtoxin-A in participants with diabetic nerve pain of the feet and lower legs. The main questions it aims to answer are: Is the treatment safe and effective? Does the treatment affect participants quality of life, depression, physical activity, daily life, and sensation? Participants will be treated every 12 weeks, for a total of 24 weeks, with either incobotulinumtoxin-A or a placebo.

This multi-center, randomized, double-blind, sham-controlled trial aims to investigate the effect and safety of TaVNS in treating radiotherapy-related neuropathic pain.

The purpose of this study is to learn if pain can be relieved by delivering small amounts of electricity (called "electrical stimulation") to the nerves at the top of the neck. This study will use a device called the SPRINT® PNS System. PNS stands for peripheral nerve stimulation (PNS). This device is cleared by the FDA for up to 60 days of use for relief of chronic or acute pain.

Central post-stroke pain (CPSP) is a neuropathic pain syndrome and one of the major sequelae after ischemic or hemorrhagic cerebral stroke. Recently, a modified stimulation paradigm has been developed in the field of spinal cord stimulation (SCS) for a variety of neuropathic pain disorders. To date, this stimulation paradigm has not yet been evaluated systematically for deep brain stimulation to treat neuropathic pain disorders. The purpose of this clinical investigation is to investigate if Burst-DBS of the thalamus is more effective compared to classical continuous low-frequency stimulation DBS to reduce the subjective pain intensity in patients with chronic neuropathic pain after stroke or in patients with neuropathic facial pain.

The purpose of this study is to confirm the analgesic effect of tDCS in neuropathic chronic pain, to estimate the importance and the duration of this effect, and to improve its efficiency by the use at home. It is established that the repetition of the sessions of cortical stimulation over a week improves their analgesic efficacy. However, this effect does not exceed a few weeks and is much lower than that of the stimulation implanted surgically. Implanted stimulation operates periodically, several times a day, and this "repetition of doses ", akin to the regular taking of a medicine, may explain its longer efficacy for pain relief which, may extend over several years (André-Obadia and al 2014). No study at this date has estimated the long-term effect of non-invasive stimulation when is also periodically repeated on a daily basis, over several weeks.

The aim of our study is to investigate the effect of high-frequency Repetitive Transcranial Magnetic Stimulation(rTMS) therapy applied to the dorsolateral PFC (DLPFC) area on neuropathic pain in patients with spinal cord injury. In this area, there are very few studies on the effectiveness of rTMS treatment added to medical treatment in neuropathic pain. In addition, the number of studies comparing the effect of rTMS therapy applied to the DLFPC area is very few.

The purpose of this study is to evaluate the effectiveness of Repetitive transcranial magnetic stimulation (rTMS) on pain and quality of life in patients with cancer neuropathic pain. Although there are currently different therapeutic options for neuropathic pain, most are limited or restricted to pharmacotherapy. Transcranial magnetic stimulation (TMS) is a tool recently incorporated into neuroscience in the management of neuropathic cancer pain. The study will include 10 patients with oncologic neuropathic pain who will receive 20 sessions of rTMS and the effect on pain and quality of life.

Phase I Part 1 (single ascending dose): Double-blind dosing will occur in healthy volunteers in 5 cohorts of 8 subjects each. Six subjects in each cohort will be randomized to receive AFA-281 and 2 subjects will be randomized to receive the matching placebo. At the end of the Part 1 study is to evaluate the safety and tolerability of AFA-281. Following completion of each cohort, bioanalytical analyses will be conducted to evaluate the pharmacokinetic profile. Phase I Part 2 (multiple dose for 14 days): Pending the results from Part 1, healthy volunteers will be administered AFA-281 for 14 consecutive days in 3 cohorts. At scheduled intervals after dosing, and at the end of the cohort's study period to evaluate the safety and tolerability of AFA-281 and the pharmacokinetic profile of AFA-281.

The main purpose of the study is to assess the safety and efficacy of repeated administrations of BoNT-A in subjects with NP attributable to carpal tunnel syndrome (CTS) through a randomized, double-blind, placebo-controlled study. Further research has shown that BoNT-A has analgesic properties independently from its action on muscle tone, possibly by acting on neurogenic inflammation. Therefore, the study drug may be better than other treatments surgical or non-surgical currently available for the treatment of CTS.

Veterans with diabetes are more likely than diabetic civilians to develop disabling chronic diabetic neuropathic pain (CDNP). Research on frontline treatments for CDNP (enhanced glycemic control, exercise, pharmacological agents), shows inconsistent outcomes and dissatisfaction among Veterans. Veterans and clinicians have shown significant interest in cannabis derivatives (THC, CBD) for neuropathic pain control, but there are no well-controlled trials guiding expectations for benefit and adverse outcomes associated with cannabis for CDNP. Because Veterans are likely to present with pain and pain-related polymorbidity significantly differing from that of civilians, a well-structured clinical trial of cannabinoids for Veterans with CDNP is vital. The present phase II study will offer the first evidence describing the potential benefits and adverse effects of cannabinoids for CDNP in Veterans using a four-arm, double-blind, multisite randomized trial comparing THC, CBD, THC+CBD and placebo on neuropathic pain outcomes.