View clinical trials related to Pain.
Filter by:This study is testing whether the addition of a noninvasive form of brain stimulation called transcranial direct current stimulation (tDCS) when combined with meditation helps decrease the abdominal pain in patients with chronic pancreatitis. The device involved in this study, transcranial direct current stimulation (tDCS) is investigational. This means that the study device is still being tested in research studies and is not approved by the Food and Drug Administration [FDA].
The purpose of this research study is to test which topical anesthesia: LMX4 (Lidocaine 4%) or BLT (Benzocaine 20%, Lidocaine 6%, and Tetracaine 4%) is more effective in reducing discomfort during treatment with the Fraxel DUAL 1550/1927 (Solta Medical, Hayward, CA). No studies have been done on the effectiveness of LMX4 versus BLT using the Fraxel DUAL, although individually LMX4, BLT, and the Fraxel DUAL have been studied extensively. The hypothesis is that there will be no clinical difference between the two topical anesthetics.
Lazanda is a prescription nasal spray medicine that contains the medicine fentanyl. It is used to manage breakthrough pain in adults with cancer who are already routinely taking other opioid pain medicines around-the-clock for cancer pain. Lazanda is started only after taking other opioid pain medicines and the patient's body has become used to them (opioid tolerant). The purpose of this study is to assess the ability of Lazanda to control pain during an episode of breakthrough pain in cancer patients.
A combined Phase 1 & 2 study to evaluate the safety and effectiveness of a new diabetic neuropathy topical cream, containing benfotiamine, will be performed at 5 clinical sites and plans for BC-DN-01 administration in up to 135 volunteer patients using a standard Phase 1 + 2 design. Up to 15 subjects will receive BC-DN-01 in Study Phase 1 and up to 120 subjects will receive BC-DN-01 or placebo in Study Phase 2. In Phase 1, a BC-DN-01 dose delivering 160mg benfotiamine/day (80mg twice daily) will be administered for the first 7 days. On visit day 0, patients will commence study treatment. Patients will be interviewed by phone on day 3 and return to clinic on day 7 for safety assessments. If the drug is well-tolerated and no significant adverse events experienced, the total daily BC-DN-01 dose will be increased on days 7-14 to 320mg benfotiamine/day (160mg b.i.d.). Patients will be interviewed by telephone on day 10 and return to clinic on day 14 for safety assessments. Once the safety profile has been determined in Phase 1 as acceptable, the Phase 2 study will be initiated to evaluate clinical efficacy of BC-DN-01. Phase 2 is a randomized, placebo-controlled, double-blind, parallel study. Participants receive placebo or BC-DN-01 based on 1:1 randomization. Each patient will apply 4g of the study medication to each leg twice-a-day administering 320mg benfotiamine dose/day for 12 weeks. Participants will be evaluated in the clinic at baseline and at 4, 8, and 12-week time points; study staff will interview the patients by telephone on weeks 2, 6, and 10. The primary endpoint of the phase 2 trial is reduction in DPN pain measured by the Brief Pain Inventory. Phase 2 patients will be invited to give written consent to take part in biopsy sampling and additional gene expression analysis.
Local infiltration with lidocaine prior to epidural placement for cesarean section, although brief, can be painful. This pain can lead to increased anxiety and distress, adversely affecting patient's overall experience. This study proposes to examine the application of Synera pain patch prior to lidocaine infiltration to reduce this pain and anxiety. The primary objective of this study is to determine the effect of the Synera on maternal experience during epidural placement. The efficacy of Synera pain patch in reducing subject pain during skin infiltration with lidocaine prior to epidural placement in subjects presenting for scheduled cesarean section will be assessed.
This research is being done to see whether testosterone replacement in men who take opioid-based pain medications and have low testosterone levels will show improvement in pain tolerance, pain perception and quality of life. Some men who take opioid-based medications (narcotics) for pain develop low testosterone levels. Research has shown that low testosterone levels may make a person more sensitive to pain. This means that if a person with a painful condition develops low testosterone level as a result of his pain medications, he might become more sensitive to pain and so may need higher doses of pain medications for pain control. Testosterone is a male hormone that is important for sperm production and the development of male characteristics such as muscle mass and strength, fat distribution, bone mass and sex drive. Testosterone hormone replacement therapy has been used for decades to treat men with low testosterone levels (male hypogonadism). Testosterone replacement therapies are available in the form of an injection into the muscle, implants under the skin, oral capsules taken by mouth, topical gels applied to the skin, and skin patches. This study will use Fortesta®, a topical testosterone gel (T-gel) absorbed into the skin. Fortesta® is currently on the market as an FDA-approved treatment of male hypogonadism (low testosterone levels). Men with non-cancer related pain who take opioid-based medications for pain and have low testosterone levels may join this study. (A low testosterone level is defined as early morning (before noon) blood testosterone level of 300 ng/dl or less, or a free testosterone of 50 ng/dl or less)).
This study will evaluate treatment with High Intensity Focused Ultrasound (HIFU)in combination with ThermoDox (liposomal doxorubicin) is safe and effective in reducing pain for patients with painful bone metastases.
The purpose of this study is to evaluate tapentadol Extended Release (ER) in the treatment of moderate to severe chronic pain in participants with a diagnosis of chronic low back pain (LBP) or osteoarthritis (OA) of the hip or knee after conversion from hydrocodone, oxycodone Controlled Release (CR), and/or morphine Sustained Release (SR).
This study aims to investigate the relative effectiveness of two different pain management plans for injuries sustained while active duty in the military. One arm of the study has subjects undergo standard comprehensive medical management, while the other adds the placement of a spinal cord stimulator, a common procedure for the alleviation of pain.
Diabetic peripheral neuropathy (DPN) represents a diffuse symmetric and length-dependent injury to peripheral nerves that has major implications on quality of life (QOL), morbidity, and costs from a public health perspective. Painful diabetic neuropathy affects 16% of patients with diabetes. Pharmacological agents used in the management of painful DPN mainly include tricyclic antidepressants, selective serotonin and norepinephrine reuptake inhibitors, opioids, and anti epileptic drugs. However, only two drugs (duloxetine and pregabalin) have been formally approved by the EMEA and the US FDA for the treatment of painful DPN. Generally, the available treatment options do not give total relief, are not effective in all patients, and only about one-third of patients may achieve more than 50% pain relief. Hence newer therapies are required for the treatment of DPN. This is randomized, double-blind, placebo-controlled, parallel group study. The study will include patients with type 1 or type 2 diabetes mellitus with history of pain attributed to DPN for least 6 months and no greater than 5 years. Patients will be recruited after providing written informed consent.