View clinical trials related to Neuralgia.
Filter by:Escalating single-dose design study to determine the safety, tolerability, and analgesic activity of KLS-2031
To evaluate the effect of cervical interlaminar epidural steroid injections on the neuropathic pain, quality of life and disability patients with cervical radiculopathy. After the clinical and MRG evaluations of patients with neck and arm pain, injection was given to eligible patients. Patients undergone the procedure were evaluated before and after injection for neuropathic pain, quality of life and disability.
The objective of this this randomized controlled study is to determine whether a pudendal nerve block at the time of vaginal surgery is associated with improved postoperative pain control and decrease opioid consumption compared to a sham pudendal nerve block in patients undergoing vaginal surgery.
Trigeminal neuralgia is a very painful condition, and radiofrequency therapy is reserved for patients who are resistant or intolerant to pharmacological therapy. Continuous radiofrequency and pulsed radiofrequency both have advantages and disadvantages. Recently, studies have found that pulsed radiofrequency combined with low-temperature (<65 °C) continuous radiofrequency increases the efficacy of the treatment, without leading to a significant increase in complications caused by nerve lesions. However, these reports have some limitations. The investigators plan to conduct a randomized, controlled study to compare the efficacy of applying high-voltage pulsed radiofrequency, with and without low-temperature continuous radiofrequency, to the gasserian ganglion for the treatment of trigeminal neuralgia. The primary outcome will be the effectiveness of the treatment after 12 months which is the percentage of participants with a modified Barrow Neurological Institute Pain Intensity Score between I-III.
Spinal Cord Injury (SCI) leads to alterations in brain structure and function by spinal nerve damage, secondary inflammatory responses, and by the consequences of living with paralysis and neuropathic pain. Physical inactivity due to lower body paralysis rapidly leads to loss of muscle, and risk of heart disease. The leading cause of death after a spinal cord injury is cardiovascular disease, and just a year after injury, those with SCI have a peak exercise capacity half that of the unfit general population. The good news is that aerobic exercise reduces the risk of chronic metabolic and cardiorespiratory diseases, reduces inflammation and pain, and increases mood and quality of life. Exercise can also reduce brain inflammation, enhance endogenous analgesia, and increases the size of the hippocampus. The issue is that muscle paralysis in SCI restricts the ability to achieve the levels of exercise that is necessary for broad analgesic, anti-inflammatory and neuroprotective benefits. Arm exercise can have some effects on heart and lung capacity, but the small muscle mass is insufficient to produce more than modest aerobic work. With functional electrical stimulation (FES), leg muscles that are paralyzed can be made to contract, thereby allowing more of the body to be exercised. The full rowing stroke is produced by both the (stimulated) legs and arms, increasing the active muscle mass and resulting in an aerobic work-out that is intensive enough to improve heart, lung, and - maybe - brain function. In this clinical trial of sub-acute spinal cord injured subjects, the investigators will study how 12 weeks of FES-RT, in comparisons to 12 weeks of wait-list, changes pain, brain structure, endogenous opioid function and brain inflammation. The investigators will measure changes using positron emission tomography and magnetic resonance imaging. The investigators hypothesize a decrease in pain interference, an increase in hippocampal volume, increased endogenous opioid transmission in the periaqueductal gray, and decreased hippocampus neuroinflammation.
Alpha 2 macroglobulin (A2M) is a plasma protein that acts as a molecular trap for inflammatory factors such as tumor necrosis factor (TNF). After plasma is enriched for A2M, it may be injected for treating chronic inflammation. Plasma enriched for A2M may be considered as a possible injectable agent to counteract inflammation that may occur with a cervicobrachial pain syndrome. This study reports on an experiencing using A2M to treat cervicobrachial syndrome which was predominant for either musculotendinous or neuralgic features.
This study will look into the effectiveness of spinal cord stimulation (SCS) in reducing chronic neuropathic pain in patients who have not had previous spinal surgery. This will be assessed by comparing the Numerical Rating Scale (NRS) questionnaire responses before and after the SCS intervention. We will also investigate the effect of HD frequency parameters on the improvement of quality of life, sleep and any adverse events following the spinal cord stimulation.
Rationale: In 2016, Henssen et al. discuss that orofacial pain may be conducted in a bilateral fashion, inducing activation of both thalami [1]. For this reason, bilateral stimulation of the motor cortex is thought to induce a stronger analgesic effect compared to unilateral motor cortex stimulation by transcranial magnetic stimulation. Objective: To investigate the superiority of bilateral transcranial magnetic stimulation (TMS) over unilateral TMS of the motor cortex Study design: Double-blind, randomized controlled trial Study population: Patients that suffer from chronic orofacial pain and have not been treated (yet) with any form of neuromodulation. Intervention (if applicable): One group receives bilateral TMS whereas the other group receives unilateral TMS for one month. After one month, the groups switch treatment protocol. Main study parameters/endpoints: Modification in intensity of pain as measured using the VAS, the influence the relief of pain with regard to quality of life and daily activities using the McGill Pain Questionnaire. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Time investment of patients.
This pilot study utilizes a unique technology to determine nerve fiber sensitivity. This will allow us to determine whether this method and device can discern changes in pain intensity and type, which is predicated on differing nerve fiber sensitivities.
The investigators hypothesize that SCI patients using immersive IVR training will show improved reduction of neuropathic pain that will outlast the training sessions and transfers into daily life.