View clinical trials related to Chronic Pain.
Filter by:The purpose of this clinical study is to demonstrate that after six weeks of at home exercise, 3 times per week with SimpleTherapy, participants with clinical indications of knee OA will on average have improved outcomes noninferior than traditionally prescribed physical therapy regimens.
The goal of this randomized controlled trial is to investigate the effect of esketamine versus placebo on the NRS score for chronic pelvic pain. Secondary endpoints are to assess pain scores, side-effects, quality of life, depressive symptoms and pain coping.
Precision medicine is defined as "an emerging approach for disease treatment and prevention that takes into account individual variability in genes, environment, and lifestyle for each person" by the Precision Medicine Initiative. Patients have different response to different treatment modalities, and sore/pain medicine is no exception. In our experience, low-level laser (LLL), ultrasound, and prolotherapy can reduce sore /pain through different genetic pathway. Whether the therapeutic effect is controlled by the genetic variants of those sore /pain related genes or not, is still in debate. The aims of this study are (1) To set up next generation sequencing (NGS)-based approach to find genetic variants which can determine the response of sng/pain treatment modalities and the phenotype of idiopathic scoliosis. (2) To find possible metabolomics and proteomic markers of sng/pain. (3) To determine the algorithm of precision medicine for sng/pain control via the genetic markers. Investigators will recruit 80 myofascial pain participant and 80 idiopathic scoliosis participant from Department of Physical Medicine and Rehabilitation, National Taiwan University Hospital Bei-Hu Branch in 2023 and 2025. The myofascial pain participant participants will receive LLL, ultrasound, and prolotherapy, and the therapeutic effect will be recorded. The clinical trial will evaluate the Sng / pain (VAS) and muscle tone of the idiopathic scoliosis participant. The blood and urine samples from the first, the second, and the third visits will be analyzed by next generation sequencing, and mass spectrometry to find the possible biomarker in 2024 and 2025. Investigators expect to develop the individualized treatment plan by means of these biomarkers. Hopefully, the results will be widely applied in the field of sore /pain medicine.
This pilot randomized controlled trial (RCT) aims to investigate the feasibility and efficiency of delivering different rTMS protocols in individuals with CLBP and insomnia. Participants will be randomly assigned to either the primary motor cortex (M1) rTMS, the dorsolateral prefrontal cortex (DLPFC) rTMS, or sham stimulation.
Facet joint-related pain is one of the leading causes of low back pain. Facet joint-related disorders can have a negative impact on quality of life and daily living activities, in addition to the pain.Conservative treatment methods such as analgesic medications, physical therapy, and manual therapy are used for facet joint-related low back pain, and interventional pain management practices are used in patients who do not respond adequately to these treatments. Pulse radiofrequency application, which is a recent popular treatment in interventional pain management, is also frequently applied in the treatment of facet-joint related pain. Pulsed radiofrequency intervention can be applied directly intra-articularly or can be applied to the median branch, which is important structure in pain transmission. Although both methods are frequently used in pain management, there is a lack of information in the literature about which is more effective. This study aimed to compare the treatment results of intraarticular pulse radiofrequency application and median branch pulse radiofrequency application in facet joint-related low back pain.
Virtual reality systems have been applied in recent years to reduce pain intensity and fear of movement in individuals with acute and chronic pain. The main mechanism of virtual reality methods in pain control is to provide the effect of distraction from pain. Virtual reality systems allow the individuals to feel themselves in a different environment and shift their attention to the game they are playing or the virtual world created rather than the pain they feel. This is thought to be the main mechanism of pain control. However, the cortical mechanism of the reduction in pain caused by virtual reality methods, especially in individuals with chronic pain, has not been fully elucidated. It is predicted that the integration of virtual reality methods into treatment protocols will gradually increase by time, especially as a result of the reflection of technological developments in clinical practice. At this point, fNIRS, which enables the assessment of the functionality of brain areas during movement, has the potential to reveal the response of the effect provided by virtual reality technology in the prefrontal cortex. The aims of our study were to examine brain hemodynamic activity during the experience of non-immersive and immersive virtual reality environments and the change in pain intensity after virtual reality applications in individuals with rheumatic diseases with chronic pain.
At a median follow-up of 33 months, the combination of anastrozole and NOLVADEX (tamoxifen citrate) did not demonstrate any efficacy benefit when compared to NOLVADEX (tamoxifen citrate) therapy given alone in all patients as well as in the hormone receptor positive subpopulation. This treatment arm was discontinued from the trial. This study is now a combination therapy whereas the median duration of adjuvant treatment for safety evaluation is 59.8 months and 59.6 months for patients receiving anastrozole 1 mg and NOLVADEX (tamoxifen citrate) 20 mg, respectively.
The primary aim of this study is to investigate the effect of Internet-delivered Acceptance and commitment therapy for endometriosis and chronic pain. A pilot study (no randomization; N=10) will be conducted to test the intervention and assessment procedures. The participants will go through an active internet-based ACT treatment focused on education about endometriosis and chronic pain, value-based exposure for avoided situations, and behavior change through exercises targeting the processes mindfulness, cognitive defusion and acceptance. The treatment is delivered on a safe internet platform. Participants have planned telephone contact with their assigned psychologist 2 times during the program and can also contact their psychologist via a message system in the platform and expect answer within 48 hours.
The goals of this study are - To define what the public perceptions of persistent pain using a national survey - Explore relationships between the reported pubic beliefs and demographic factors collected. - To evaluate the impact of a public health campaign to increase awareness of persistent pain and develop understanding of pain that aligns with contemporary science.
Great occipital nerve (GON) block is commonly applied for the pain management of occipital neuralgia, migraine, and cervicogenic headache. The GON orginates from the medial branch of the dorsal ramus of the C2 spinal nerve with variable contribution from the C3 dorsal ramus. After emerging from the suboccipital triangle, the nerve courses cephalad in an oblique trajectory between the semispinalis capitis (SC) and obliqus capitis inferior (OCI) muscles. This area was recognized as a potential location for GON injury. The nerve then passes through the trapezius muscle and courses medial to the occipital artery as it ascends to innervate the posterior scalp. Many practitioners perform GON injections using a conventional approach, relying solely on superficial bone-based anatomic landmarks to infiltrate local anesthetic and corticosteroid around the nerve at the level of the superior nuchal line. Some clinicians also use fluoroscopy to confirm the location of bony landmarks. The ambiguity of these injections poses a risk of anesthetizing adjacent structures or injecting into vessels, such as the occipital artery. Very limited research has been done to quantify the risk of these injections, but a complication rate of 5% to 10% has been reported, including headache, dizziness, blurred vision, and syncope. Ultrasound guidance is increasingly used to mitigate these risks and improve the efficacy of GON injections. Multiple studies have demonstrated successful ultrasound-guided GON blockade at the superior nuchal line and improvement in pain scores compared with nonguided injections. C2 level GON block using ultrasound targets interfascial plane between OCI and SC muscles. However, a pain physician who begins ultrasound guided injections migth feel very difficult targeting interfascial plane exactly. Since GON orginiates from deep space of suboccipital triangle, it is expected that injection within OCI muscle might have similar effect with the effect of injection into interfascial plane. We assume that if the local anesthetics is injected within OCI muscle, the effect of GON block will be generated by the diffusion of injected local anesthetics.