36 Clinical Trials for Various Conditions
The overarching aim of this project is to conduct a randomized controlled study to determine whether Mindfulness-Oriented Recovery Enhancement (MORE) vs. a Support Group (SG) can improve pain regulation and hedonic functions (i.e., natural reward responsiveness) thought to be governed by the endogenous opioid system among opioid-treated, chronic, non-neuropathic back pain patients (CNBP) and thereby improve clinical pain, affect, and opioid use.
Back pain is a common secondary condition of both acute and chronic spinal cord injury (SCI). Current existing treatment including both pharmacologic and non-pharmacologic are limited by marginal efficacy or intolerable side effects. The purpose of this study is to evaluate the potential of subcutaneous injections of botulinum toxin A to provide pain relief in spinal cord injury patients with back pain near the level of injury in the spine. Botulinum toxin A has been shown in both pre-clinical and clinical studies to help with nerve pain. The researchers propose a double blinded placebo controlled crossover study to study the effects of subcutaneous botulinum injections to at--level SCI back pain in patients with spinal cord injury.
The purpose of this study is to evaluate the efficacy of spinal cord stimulation (SCS) using the Precision implantable neurostimulation device for chronic and intractable back pain in subjects who are not candidates for surgery or who have chosen to seek alternative therapy.
Low back pain is a public health problem affecting between 70-85% of adults at some time in their life. This study is being done to study the safety and effectiveness of the drug Milnacipran in treating chronic low back pain.
This is a research study to find out if Qutenza 8% capsaicin topical system is safe and effective when treating subjects with lower back pain (LBP) that is caused by damage at or near the nerve's root in the lower back leg (lumbosacral radiculopathy) which is pain that can move all the way down the back of the leg. The pain may also start outside of the spinal cord, in the peripheral nerves and may also be felt all the way down the back of the leg (neuropathic LBP). Qutenza 8% capsaicin, the study drug, is currently FDA approved to treat nerve pain after a shingles outbreak in addition to a type of nerve pain in the feet associated with diabetes. In this study a maximum of four patches per visit (sized 14cm x 20 cm) will be used to deliver the Qutenza 8% capsaicin to the participants skin. If a subject meets the qualifications for this study, in addition to their standard of care for their LBP, they can expect to have a total of 5 visits in a 12 month period. Each visit will require subjects to fill out several surveys and receive treatment patches for their LBP (your doctor will decide if participants will need to be retreated at each visit based on your symptoms). The study visits are estimated to take 90 minutes upwards to 120 minutes.
The primary objective of this study is to compare the efficacy and patient preference for spinal cord stimulation (SCS) using the Precision device with the electrode array placed at T7 versus placement at T8. Eligible patients will have chronic intractable pain in the back or lower extremities and will have independently elected SCS as the next line of therapy. There is some anecdotal evidence that the coverage of the paresthesia resulting from T7 placement is preferable to that obtained by the more commonly used T8 placement but there has been no study to support this observation.
Based on laboratory studies, donepezil will improve pain relief more than placebo in patients with chronic neuropathic pain who are currently taking gabapentin or pregabalin.
Epidural injection will be completed under fluoroscopy and all patients will receive 1-4 mg of Midazolam for relaxation before procedure and, if needed, 50-100 mcg of Fentanyl intravenous (IV). Radiopaque contrast (Omnipaque 300), for confirming the epidural position of the needle, steroids and local anesthetic agents will be used according to the physician performing the block and will not be controlled by the study. Patients will be randomly assigned to receive either inhaled Entonox along with the interventional block they are scheduled for or oxygen. They will be blinded about the treatment they are receiving. Those randomized to Entonox will inhale the gas through a mouthpiece throughout the procedure and also continue to receive it for a total of 4 hours in the recovery. Those randomized to the oxygen group will receive oxygen through a similar mouthpiece for the entire duration of the procedure and recovery for 4 hours. Following completion of procedure the patient will be transferred to recovery and monitored for 3-5 hours then discharged home with instructions. Possible side effects will be monitored and recorded, pain score of patient will be recorded before discharge. All the patients will receive standard instructions regarding physical back exercises. This will be repeated for every procedure up to maximum of three blocks. The patients will be followed during each block and over a period of 1, 3, 6 and 12 months and on each follow-up visit will complete computerized set of questionnaires as they did before the procedure. The patients charts will be then reviewed for one year after the initial procedure to determine if further epidural steroid injections or surgery for the presenting problem were required. It is anticipated that the appropriate number of patients will be enrolled within six months of study initiation.
The primary goal of this clinical trial is to learn if PIPE-791 is safe and well-tolerated in adults with chronic osteoarthritis pain (COAP) or chronic low back pain (CLBP). The study will also explore whether PIPE-791 lowers pain in people with COAP or CLBP. Subjects will: * Complete a washout period to stop their current pain medications. * Take a daily dose of PIPE-791 or placebo for 4 weeks, then reverse treatment assignment for another 4 weeks. * Record pain levels and track dosing in a daily e-diary. * Visit the clinic for checkups and lab tests throughout the study. * Complete phone assessments during the treatment periods.
The objective of this study is to evaluate the efficacy of BurstDR dorsal column stimulation, compared with conventional medical management, in improving pain and back-related physical function in subjects suffering with chronic, refractory axial low back pain with a neuropathic component, who have not had lumbar spine surgery and for whom surgery is not an option.
Treatment of chronic low-back pain with low-dose naltrexone and acetaminophen combination: a small, randomized, double-Blind, and placebo-controlled clinical trial with an open-label extension for none-responders
The FDA-approved MC5-A Scrambler Therapy (MC5-A ST) is an electroanalgesia device that interferes with pain signal transmission by using nerve fibers as a passive means to convey a message of normality (sans pain) to the central nervous system. While preliminary research has demonstrated its efficacy in treating chronic neuropathic pain secondary to cancer and failed back surgery syndrome, its effectiveness in treating chronic neuropathic pain secondary to traumatic musculoskeletal injuries like those experienced in combat has not been investigated. The purpose of this prospective, double-blind, randomized controlled, study is to determine if the MC5-A ST is efficacious in altering the biological, psychological, and social components of the chronic neuropathic pain experience in military Service Members (SMs) with traumatic musculoskeletal extremity injuries.
This study will involve treating low back pain associated with nerve injury with oral delta-9-tetrahydrocannabinol (Δ9-THC) or whole plant cannabis for eight weeks. Research subjects will consume either oral Δ9-THC (dronabinol), vaporized 3.7% Δ9-THC/5.6% CBD, or placebo. An analysis will then be determined to assess the risk--benefit ratio of dronabinol and vaporized 3.7% Δ9-THC/5.6% CBD .
The study includes back pain of the cervical, thoracic, and the lumbar regions.
This is a 2-part, multicenter, randomized, double-blind, placebo-controlled study to evaluate the efficacy and safety of twice-daily (BID) oral difelikefalin for moderate-to-severe pruritus in adult subjects with NP.
This is a multicenter, randomized, double-blind, placebo-controlled study to evaluate the efficacy and safety of twice-daily (BID) oral difelikefalin (CR845) in adult subjects with notalgia paresthetica and moderate to severe pruritus.
The investigators will be evaluating quality of life outcomes in patients who are undergoing routine spinal cord stimulator implant for uncontrolled pain. Patients will be evaluated pre and post-operatively for quality of life improvements, pain control, and functionality.
The purpose of the long-terms study is to evaluate the safety, tolerability, and analgesic efficacy of EN3409 in subjects with moderate to severe chronic pain requiring continuous around-the-clock opioid analgesia for an extended period of time.
The purpose of the study is to determine whether the combination of the the three drugs gabapentin, duloxetine, and donepezil are effective in treating pain in people with diabetic neuropathy or patients with failed low back syndrome (chronic back pain).
The purpose of this study is to evaluate the safety and tolerability of OraVescent fentanyl for the potential treatment of breakthrough pain episodes in patients who have chronic noncancer pain.
The purpose of the chronic pain master protocol is to compare independent pain interventions and establish an overarching structure for the disease-state addenda (DSA) and intervention-specific appendices (ISAs). The ISAs may start independently of other ISAs as interventions become available for clinical testing.
This study relies on the use of a smartphone application (SOMA) that the investigators developed for tracking daily mood, pain, and activity status in acute pain, chronic pain, and healthy controls over four months.The primary goal of the study is to use fluctuations in daily self-reported symptoms to identify computational predictors of acute-chronic pain transition, pain recovery, and/or chronic pain maintenance or flareups. The general study will include anyone with current acute or chronic pain, while a smaller sub-study will use a subset of patients from the chronic pain group who have been diagnosed with chronic low back pain, failed back surgery syndrome, or fibromyalgia. These sub-study participants will first take part in one in-person EEG testing session while completing simple interoception and reinforcement learning tasks and then begin daily use of the SOMA app. Electrophysiologic and behavioral data from the EEG testing session will be used to determine predictors of treatment response in the sub-study.
The purpose of the study is to assess the feasibility of using information extracted from physiologic signals to automatically adjust stimulation in patients undergoing Spinal Cord Stimulation (SCS).
Veterans who have responded well to Battlefield Acupuncture (BFA), a form of auricular acupuncture, in routine clinical practice will be invited to receive education to insert the needles themselves at home. A 3D-printed wearable prosthetic will also be explored as a means to facilitate needle placement. Primary end-points will include whether adverse events occur over a six-month period and whether the aforementioned prosthesis significantly facilitates needle placement in terms of subjective ease of administration.
Effective control of chronic pain is a top priority in the United States, as approximately 10% of adults have severe chronic pain most of which is chronic lower back pain (CLBP). However, despite the advances in neuroscience over the past 20 years, chronic pain is largely treated with opiate narcotics, much as was done in the Civil War. In addition to their high abuse liability and dependence potential, only 30 40% of chronic pain patients declare they receive satisfactory (\>50%) relief from their pain through pharmacological treatment. In these patients a common clinical practice is to escalate the dose of opiates as tolerance develops which unfortunately has contributed to escalation in opiate overdose deaths, a resurgence of intravenous heroin use, and $55 billion in societal costs. Consequently, there is a critical need for new treatments that can treat pain and reduce reliance on opiates in individuals with chronic pain. The proposed study will be the first to employ a randomized, double-blind, sham-controlled design to parametrically evaluate the longitudinal effects of 16 days of Repetitive transcranial magnetic stimulation (rTMS) to the primary motor cortex (MC) or the medial prefrontal cortex (MPFC) on self-reported pain and the brain s response to pain. This will be done in a cohort of patients recruited from the community as well as Wake Forest Baptist Health (WFBH) clinics with chronic lower back pain that have not been able to find adequate pain relief, whether or not they are using prescription opiates for 3 or more months. Participants will be randomized to receive rTMS to the MC, MPFC, or sham (50% at each site), using a Latin square randomization. Resting state connectivity will be collected 3 times: before the 1st day of TMS, after the 12th day of TMS, and before the 16th day of TMS (the last day administered).
The purpose of this study is to evaluate the impact of genetic testing on healthcare decisions and patient outcomes in interventional pain management clinical care. Results of genetic testing will also be compared with the clinical outcome measures collected to discover novel genetic factors that may influence patient care.
The purpose of this study is to determine whether BEMA Buprenorphine is safe in the treatment of chronic pain.
The purpose of this study is to see if changing from one pain medication like morphine or oxycodone to another pain medication, oxymorphone (OPANA®), will be helpful to patients. This study will examine if the switching from one pain medication to another can be done over a 24 hour period. Oxymorphone, the drug being studied, is an FDA approved drug for treatment of severe pain.
This study will test the effectiveness of topiramate to treat pain caused by lumbar radiculopathy, or sciatica. Sciatica results from damage to the lumbar nerve roots, typically causing back pain and sharp, shooting pain down one or both legs. Although sciatica is common, there are no good treatments for it. Topiramate belongs to a group of medications commonly used to treat pain caused by nerve damage. Patients between 18 and 75 years of age who have had sciatica pain daily for at least 3 months may be eligible for this study. (This is taken from the first paragraph of the Qualification Criteria in the consent form. The inclusion criteria on page 6 of the protocol say "low back pain of 3 months duration or longer present at least 5 out of 7 days a week" and signs and symptoms of lumbar radiculopathy. Which is correct?) Participants will provide a medical history, as well as occupational and social information. They will undergo a standard neurological examination, including a test of cognitive (thinking) abilities, muscular function, reflexes and a sensory examination. The latter involves testing with a pin placed on the surface of the skin. Participants will also have routine blood tests and will fill out questionnaires on their daily functioning and psychological well being. Additional procedures may include magnetic resonance imaging (MRI) scans and possible referral to a psychiatrist for evaluation of depression or emotional difficulties. This "cross-over" study consists of two parts. In one part, patients will receive topiramate and in the other, an active placebo. An active placebo is a drug that does not work for the problem being studied but whose side effects are like those of the test drug. Diphenhydramine (Benadryl) is the active placebo used in this study. Diphenhydramine is an allergy medication with very mild side effects, such as drowsiness. During both parts of the study-topiramate and placebo-patients will keep a daily log in which they rate their pain, record other procedures they undergo, such as injections and manipulations, and record medication side effects. In the first week of the study, patients will remain on their current medications and record pain levels once a day. After the first week, they will begin taking the study drugs-either topiramate in increasing doses ranging from 50 to 400 mg. or diphenhydramine in doses ranging from 6.25 to 50 mg. The drug doses will be increased gradually over 4 weeks to minimize possible side effects. Increases will continue until the maximum tolerated dose is reached. Patients will continue on the highest tolerated dose for two weeks and then be tapered off gradually over 12 days. They will remain off drugs completely for a 2-day washout period and then begin the next treatment. Those who took topiramate for the first part will take diphenhydramine for the second part and vice versa. A study nurse will call patients twice a week throughout the study to check for problems and answer questions. A physician will see patients 6 weeks after the start of each treatment. During the last visit, at the end of the study, patients will repeat the questionnaires they filled out at the beginning of the study. Patients and their doctors will be informed of the medications that were effective in each individual's care.
Doctors sometimes treat chronic pain with devices that send mild electrical currents into the spinal cord. This type of treatment is referred to as neurostimulation. A common form of neurostimulation therapy is spinal cord stimulation (SCS). In this study, researchers want to learn more about how SCS affects pain processing and relieves pain. The researchers will examine multiple forms of SCS in chronic pain patients who are receiving SCS from their own doctors as part of their standard of care. During the study, participants will be asked to complete a variety of evaluations at certain time points.