View clinical trials related to Neuralgia.
Filter by:Diabetic neuropathy is known to be the most common complication of diabetes, although the estimated prevalence is highly variable, ranging from 1.6 to 90%. Also, chronic pain is accompanied with sleep disorders, depression, and anxiety, thereby impairing quality of life and increasing societal costs. Pregabalin is one of proven and marketed oral medicine to manage the chronic neuropathic pain in diabetic patients. This study is designed as a randomized controlled trial to demonstrate that the efficacy of KW21052 in pain reduction measured by the weekly mean pain score on the numerical pain rating scale (NRS) at the 8th week of intervention is inferior to that of Lyrica.
Neuropathic (nerve pain) following amputation of a limb is very common, affecting 60-80% of patients (Sherman et al, 1984). It can prolong their recovery making it difficult to fit protheses and mobilise. Current treatment options are limited and existing painkillers have significant side effects. Nevertheless there is some evidence that pre-emptive analgesia (pain relief provided prior to the surgery) has additional benefits after the surgery (Ypsilantis & Tang, 2010) Qutenza (topical capsaicin 8%)is a novel analgesic agent which is applied directly onto the skin. It works by desensitising to pain receptors in the skin (Nolano et al., 1999) and has been shown to be effective in reducing neuropathic pain in other conditions (Backonja et al., 2008) We propose to evaluate the use of Qutenza for pre-emptive analgesia in patients undergoing amputation of a limb. This is a small, pilot, randomised controlled study of 30 patients undergoing lower limb amputation who will have Qutenza or active control applied prior to surgery. They will be followed up for 12 weeks post-operatively with regular assessment of pain scores, quality of life and wound healing.
Critical ischaemia is pain at rest as the result of poor blood flow and lack of oxygen being delivered to the tissues. It normally affects the hands and feet and can be very debilitating. It is particularly common and difficult to treat in patients with end stage renal failure Patients with renal failure are often high risk of any operative intervention which might help the pain. Often the only treatment options are painkillers. Unfortunately however, the commonly used painkillers, for example morphine, are known to cause worse side effects in patients with renal failure (drowsiness, confusion etc. Qutenza (topical capsaicin 8%) is a new treatment made from chilli peppers which is applied to the skin as a patch and works directly at the nerve endings in the skin to prevent pain. It therefore should not have the systemic side effects of other drugs. It has been demonstrated to be beneficial in other painful conditions for example post-shingles pain and nerve pain from HIV. It has never been used for critical ischaemia before. We propose to investigate the efficacy of Qutenza in treating patients with end stage renal failure and painful ischaemia. We will recruit 20 patients with painful ischaemia and treat them with Qutenza. We will follow them up for 12 weeks and monitor the change in their pain scores.
Chronic neuropathic pain is a global health concern, affecting millions of patients worldwide. It is often extremely debilitating and poses a diagnostic and therapeutic challenge. The current mainstay of treatment is pharmacotherapy consisting of powerful analgesics combined with different classes of drugs that change nerve cell membrane properties. However, response to pharmacotherapy is often poor and mandates interventional strategies. Among the latest and most promising interventional strategies is the use of neurostimulation to targeted brain areas, specifically the primary motor cortex . Motor cortex stimulation , both invasive and noninvasive (using megnetic or electical stimulation), has emerged as a highly beneficial treatment, and is currently included in different professional guidelines for the treatment of medically refractory neuropathic pain. A possible alternative way to achieve stimulation of the motor cortex is by using EEG based neurofeedback. This design, which is actually a Brain Computer Interface (BCI) enables the patient to voluntarily modulate the activity of a circumscribed brain area after a few training sessions. While EEG based neurofeedfback is decades old, it has never been tested in neuropathic pain patients. This experiment is intended to compare both the clinical effects and the brain correlates of a BCI based self modulation of M1 activity and of exogenous magnetic brain stimulation in a population of patients suffering from chronic neuropathic pain of an upper limb. 15 such patients will receive a course of 10 daily magnetic stimulation sessions with stimulation of M1 as described in the literature. A further 30 patients will be divided into two groups: 15 will perform a course of 10 real BCI neurofeedback sessions modulating motor cortex activity and 15 will perform a course of 10 sham neurofeedback sessions. The participants' baseline chronic pain levels and their response to acute painful stimuli will be clinically evaluated before and after the course, and for an additional 1 month. Furthermore, before and after the course patients will be scanned using functional MRI during rest (baseline pain levels) and during acute pain. These scans are performed both to describe the neural correlates of the analgesia induced by motor cortex magnetic stimulation , and to compare the observed networks to the network effect of a BCI neurofeedback modulation of motor cortex activity.
This study is a phase IV clinical trial with the objective of evaluating whether pain relief associated with pregabalin for at-level non-evoked and evoked neuropathic pain is more efficient during the early rather than late subacute phase of spinal cord injury.
Functional Imaging of the therapeutic effect of Pregabalin in treatment for neuropathic pain in patients with Diabetic Polyneuropathy using proton Magnetic Resonance Spectroscopy (MRS): The aim of our study is to investigate the effect of Pregabalin as a treatment for neuropathic pain in a homogeneous study population, using proton MRS (1H MRS) focusing on four regions of interest (bilateral thalami, rostral anterior cingulated cortex (rACC) and dominant dorsolateral prefrontal cortex (DLPC).
Postherpetic neuralgia (PHN) is often associated with pain and sensory changes and is the leading type of neuropathic pain in modern clinical pain research. It is characterized by a variety of sensory patterns, which may be categorized into "irritable nociceptor" and "impairment of nociceptor". At date, several lines of evidence lead to the assumption, that mechanical hyperalgesia in PHN is based - at least in part - on central nervous processes of sensitization. In animal studies the investigators have discovered a previously unrecognized effect of opioids, the reversal of long-term potentiation (LTP) at C-fibre synapses, i.e. an opioid-induced depotentiation. In principle, synaptic depotentiation may be permanent or transient. In our study the clinically used ultra-short acting MOR agonist remifentanil normalized synaptic strength after wash-out of the drug. At present it is not known whether opioid-induced depotentiation can be used to the benefit of pain patients. The aim is to study the hypothesis, that pain in a group of PHN patients with predominant mechanical hyperalgesia is reversed by intravenous remifentanil at a plasma target concentration of 18ng/ml (corresponding to about 0.75 µg/kg/min) for 60 minutes compared with PHN patients of other sensory types.
To evaluate the efficacy and tolerability of Vitatonus Dexa compared with dexamethasone in the signs and symptoms of neuralgia of various origins. Clinical study, randomized prospective and random in nature, with a patients diagnosed with neuralgia of diverse origin. Patients will be include in sufficient quantity to achieve the minimum of 104 evaluable patients.