View clinical trials related to Hyperalgesia.
Filter by:Posterior lumbar arthrodesis causes severe postoperative pain, hampering patients's postoperative reconvalescence especially functional rehabilitation. Efficient and safe methods for postoperative analgesia are, therefore, mandatory. The application of opioids are the most frequently used therapies for postoperative pain relief but it very often results side effects. Local anesthetic wound infiltration is widely recognized as a useful adjunct in a multimodal approach to postoperative pain management. In the setting of spine surgery, a single bolus administration of a local anesthetic is a useful method (with a reduction in parenteral morphine consumption during the 48 first hours) but has a limited effect because of its short duration of action. Prolonged administration through a multi-holed catheter positioned by the surgeon at the end of the procedure could increase the duration of action and may thereby improve the efficacy of local wound infiltration. Easy and effective, this new modality of administration has expanded the indications for parietal infiltrations toward major painful procedures. We designed this study to determine whether local anesthetic (compared with saline solution) continuous wound infiltration during the first two days after posterior lumbar arthrodesis on degenerative spine, could improve postoperative analgesia at short-term but particularly at mid-term (two months) and long-term (six months), in order to decrease postoperative lumbar pains (resulting in best life quality, opioid consumption limited and rehabilitation hastened) and postoperative hyperalgesia areas. The postoperative analgesic and antihyperalgesic efficacies; the postoperative rehabilitation at mid-term and long term, and the safety of opioid administration and multi-holed parietal catheter will be compared in the two groups (control and study).
Treatment of chronic pain is a major clinical challenge since chronic pain is frequent and leads to deterioration of quality of life. An injury or wound can lead to long term changes in the nervous system that make the skin more sensitive at and near the injury; this is termed hyperalgesia and occurs through long term depotentiation (LTP), i.e., a change in the synaptic interaction between neurons. Opioids are the gold standard for the symptomatic therapy of moderate to severe pain. Now, in animal studies the investigators have discovered previously unrecognized effects of opioids. UV-B irradaition of the skin of the thigh is an established model of priamary and secondary hyperalgeisa in humans. The investigators want to test the influence of remifentanil, an ultra-short acting opioid, on hyperalgesia observed after UV-B irradiation in human volunteers in a double blind cross-over prospective active placebo controlled clinical trial.
Cardiac surgery often induces acute postoperative pain and moreover chronic dysesthesia frequently occur long-term after sternotomy. The high doses of intraoperative opioïds are well known to enhance postoperative hyperalgesia (HA) and a perioperative local anesthetic agent infusion is one of the therapeutic strategies used to limit this phenomena. The aim of this study was to evaluate the effectiveness of a continuous Ropivacaïne sternal infusion compared with a saline serum infusion to limit postoperative HA, pain and morphine consumption (M) after sternotomy in cardiac surgery. This strategy could lead to lower postoperative morphine consumption and opioïd induced hyperalgesia.
Treatment of chronic pain is a major clinical challenge since chronic pain is frequent and leads to deterioration of quality of life. An injury or wound can lead to long term changes in the nervous system that make the skin more sensitive at and near the injury; this is termed hyperalgesia and occurs through long term depotentiation (LTP), i.e., a change in the synaptic interaction between neurons. Opioids are the gold standard for the symptomatic therapy of moderate to severe pain. Now, in animal studies the investigators have discovered previously unrecognized effects of opioids. Intradermal injection of capsaicin (injection of pepper extract into the skin) is an established pain model in humans. The investigators want to test the influence of remifentanil, an ultra-short acting opioid, on hyperalgesia observed after intradermal capsaicin in human volunteers in a double blind cross-over prospective active placebo controlled clinical trial.
In addition to alleviate pain there is growing evidence that µ-opioids enhance pain. This problem is known as opioid induced hyperalgesia(OIH).The NMDA receptor is involved in opioid induced hyperalgesia it may be possible to block OIH by cyclooxygenase inhibitors. This has been demonstrated with parecoxib, a COX-II inhibitor, in a experimental pain model.Both COX-1 and COX-2 are expressed in the spinal cord. It would be of interest to investigate whether a COX-1 preferring inhibitor like ketorolac also can reduce opioid induced hyperalgesic in this experimental pain model.
Superficial injection of Botulinum toxin has been advocated for cosmetic purposes but has also been reported to be helpful for some pain conditions. The investigators have observed prolonged profound analgesia following subcutaneous superficial injection of Botulinum Toxin Type A (BTA) in patients with certain types of neuropathic pain. The investigators propose to study if addition of BTA extends pain relief compared to placebo when injected subcutaneously into areas of cutaneous allodynia (the property that a normally non-noxious stimulus is perceived as painful).
The purpose of this study is to evaluate the efficacy of Sativex® compared with placebo in relieving peripheral neuropathic pain associated with allodynia.
The purpose of this study is to evaluate the efficacy of Sativex® compared with placebo in relieving peripheral neuropathic pain associated with allodynia.
This is a randomized double-blind study to determine if the administration of a small-dose of ketamine (an anesthetic)added to morphine (an opioid) contributes to reducing pain intensity during open wound care procedure (WCP)in patients who have had a traumatic injury and are in an Intensive Care Unit. Patients will be randomized to receive morphine plus saline (a placebo) or morphine plus ketamine before the WCP. The second time the patient is scheduled for WCP (no less than 24 hours), patients will be crossed over to receive the treatment they did not receive the first time. It is hypothesized that patients who receive the combination of morphine and ketamine will have better pain control during the procedure than patients who just receive morphine.
The purpose of this study is to study if lidocaine, given intravenously, reduces pain.