View clinical trials related to Chronic Pain.
Filter by:The main objective of the study is to evaluate the effectiveness, tolerability, and safety of tapentadol hydrochloride prolonged release (PR) in participants suffering from severe chronic pain due to osteoarthritis of the knee who are taking WHO Step III analgesics and show lack of tolerability. This is a clinical effectiveness trial designed to establish a link between anticipated clinical outcomes and the clinical practice by means of selected measures of clinical and subject-reported outcome. The trial will compare the effectiveness of previous analgesic treatment (WHO Step III) with that of tapentadol hydrochloride PR treatment during defined periods of evaluation.
The study will investigate characteristics of chronic pain after VATS surgery with two different sizes of videoscopic equipment.
This project seeks to measure the effectiveness of a course in self-management strategies (including yoga, mindfulness, and breathing exercises). The course will be provided by a certified yoga instructor to patients being followed at the Pain Management Centre, Hamilton Health Sciences (HHS).
Patients will convert from current opioid to Oxymorphone ER and undergo titration. During the Titration Period, subjects will receive daily oxymorphone Extended Release tablets(s) every 12 hours. Dosing adjustments will be based on the review of the subject's pain scores. Oxymorphone IR 5 mg will be provided to be used as supplemental "breakthrough" pain medication (as needed). Titration Period will end when the fixed dose of study medication is tolerated and the subject achieves adequate analgesia. Subjects will then proceed to the open-label 3-month maintenance period on the fixed dose of study medication established during the Titration Period.
The investigators are conducting this study to find out if intravenous (injected through the vein) infusion of lidocaine and ketamine administered with general anesthesia is as effective as a paravertebral block in lessening pain after surgery and that both of these techniques are superior to general anesthesia alone in reducing pain immediately after surgery and in the long-term.
The purpose of this study is to assess the effect of the spinal cord stimulator (A small wire is surgically implanted under the skin. Low-level electrical signals are then transmitted through the lead to the spinal cord to alleviate pain. Using a magnetic remote control, the patients can turn the current on and off, or adjust the intensity.) on the autonomic nervous system (sympathetic and parasympathetic). Some studies support that the spinal cord stimulation suppresses or decreases sympathetic outflow (the sympathetic nervous system is the one that provide us with the "flight and fight response" and the parasympathetic nervous system is the one that works while we "sleep, rest and digest".). The sympathetic nervous system is important in blood pressure regulation also. However, there are not reports regarding the effect of the spinal cord stimulation on blood pressure regulation in chronic visceral pain patients. Most clinical trials are focus on the effect of the spinal cord stimulation on pain relief. We think we could use blood pressure, heart rate and special analysis of these signals and their relationship to other pain measurements to assess the effect of the spinal cord stimulation in an objective way.
The objective of this study is to evaluate the safety and efficacy of intraprostatic injection of Botox for the treatment of men diagnosed with chronic nonbacterial prostatitis/chronic pelvic pain syndrome (CP/CPPS).
The Massachusetts General Hospital Center for Translational Pain Research is conducting a research study to see if Ultram ER, an FDA-approved pain medication, would be helpful in providing pain relief in subjects whose chronic pain is not well controlled on narcotic pain medicine.
This study will determine whether treatment with an extended-release opioid or topical lidocaine is effective in relieving distal symmetric lower extremity burning pain associated with multiple sclerosis (MS). If treatment with topical lidocaine is efficacious, it will have important implications for understanding this chronic pain syndrome, which is widely assumed to be caused by central nervous system pathology.
The primary objective of this study is to evaluate the efficacy of spinal cord stimulation using the Precision implantable neurostimulation device for chronic and intractable pain of the trunk and or limbs in patients who have failed treatment with an intraspinal infusion pump or other SCS system.