Active clinical trials for "Chronic Pain"

The incidence of postoperative chronic pain after craniotomy is high. Postoperative chronic pain seriously affects patient's quality of life. Compound local scalp nerve block is a good choice for analgesia after craniotomy. However, the scalp nerve block commonly cannot cover the area of suboccipital retrosigmoid approach craniotomy, leading to incomplete block. Superficial cervical plexus block (SCPB) is theoretically promising to solve the analgesia requirements of such surgical approach. At the same time, ultrasound guidance can not only accurately locate, ensure the effect of block and avoid accidental injury during puncture. The purpose of this study is to explore whether ultrasound-guided superficial cervical plexus block can safely and effectively reduce the incidence of chronic pain after craniotomy via suboccipital retrosigmoid approach.

Chronic pain is a common long-term condition that can affect any area throughout the body. Individuals suffering with chronic pain often have associated fatigue, sleep and mood disturbances. Current treatments for chronic pain include a variety of both medicine-based approaches and non-medical approaches such as exercise and psychology treatments. Patients often take a combination of medications such as antidepressants and strong medications like morphine - which are not always effective, and often associated with several troublesome side effects. Despite physical activity being a common and helpful treatment, evidence shows that patients with chronic pain can find it difficult to engage for a variety of reasons. It would be helpful to see if other non-medication based approaches will be an acceptable treatment to those suffering with chronic pain. Photobiomodulation (PBM) therapy describes a safe, non-invasive low-energy light therapy that has been successful in treating a variety of chronic pain conditions. Cells absorb light to produce a series of reactions that culminate in pain relief, reduced inflammation, and tissue repair. Most studies examining effects of PBM have consisted of a small hand-held probe focused on specific painful areas. There are a cohort of chronic pain conditions that encompass widespread throughout the back, neck and joints, such as fibromyalgia (FM). Whole-body PBM therapy is able to treat a large area of the body in a short space of time. The main purpose of the study is to determine feasibility, with a view to guiding a definitive Randomised Controlled Trial (RCT), in terms of: feasibility of eligibility criteria, recruitment rates, acceptability of trial device in the chronic pain population, and acceptability of outcome measures.

Virtual reality creates interactive, multimodal sensory stimuli that have demonstrated considerable success in reducing pain. Much research so far has focused on VR's ability to shift patients' attention away from pain; however, these methods provide only transient relief through means of distraction and therefore do not offer long-term analgesic remediation. An alternative and promising approach is to utilize VR as an embodied simulation technique, where virtual body illusions are employed as tools to improve body perception and produce potentially more enduring analgesia. Disturbances in body perception (i.e., alterations in the way the body is perceived) are increasingly acknowledged as a pertinent feature of chronic pain, and include aberrations in perceived shape, size, or color that differ from objective assessment. The degree of body perception distortion positively correlates with pain, and prior interventions have evinced that treatments aimed at reducing body perception distortions correspondingly ameliorate pain. Several recent experimental research studies have demonstrated the analgesic efficacy of body illusions in a range of pain conditions. Immersive VR multisensory feedback training signifies a promising new avenue for the potential treatment of chronic pain by supporting the design of targeted virtual environments to alter (distorted) body perceptions. Various illusions have been described to alter pain perception; however, they. Have not been directly compared to each other. The multimodal stimulus control of VR enables physical-to-virtual body transfer illusions, resulting in the feeling that the virtual body is one's own. These virtual body illusions can modulate body perception with ease and could therefore be used to alter the perceived properties of pain, consequently utilizing a virtual avatar to specifically shape interactive processing between central and peripheral mechanisms.

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 find genetic SNPs which can determine the response of sore /pain treatment modalities. (2) To find possible metabolomics and proteomic markers of sore /pain. (3) To determine the algorithm of precision medicine for sore /pain control via the genetic markers. Investigators will recruit 80 myofascial pain patients from Department of Physical Medicine and Rehabilitation, National Taiwan University Hospital Bei-Hu Branch in 2021 and 2022. The participants will receive LLL, ultrasound, and prolotherapy, and the therapeutic effect will be recorded. 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 2023 and 2024. 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.

The purpose of this study is to introduce and test the usefulness of a reflective process meant to empower people with chronic pain and help support participant's resiliency and thriving. The study team hypothesizes that: -Greater or equal to 80 percent of participants will report that the intervention was relatively easy to understand after orientation, low burden, potentially effective, and will have completed at least 2 of the 3 reflective tools.

The goal of this clinical trial is to learn about a new management system in chronic and stubborn pain patients who accept therapy of spinal cord stimulation (SCS). Usually, these patients are required to take long-term follow-ups to ensure that the stimulator works well. The main questions it aims to answer are: Is it better to improve the patient's quality of life than the current conventional follow-up? Is it better to relieve pain in the long term than the current conventional follow-up? Is it possible to be applied to a large population of chronic pain patients? Participants will be randomly assigned to either a control group or an interventional group. Participants in the control group will be given the standard SCS implantation surgery and asked to complete the conventional follow-up (at least 1-, 3-, and 6-month post-operative). Participants in the interventional group will be given the standard SCS implantation surgery and asked to do the following things: Take the daily pain self-assessment questions on a mobile phone APP. Take the monthly healthy status self-assessment questionnaires on a mobile phone APP. Take the conventional follow-up (at least 1-, 3-, and 6-month post-operative). Researchers will compare the two groups to see if the life quality of the interventional group is improved.

Low back pain is common MSK disease with prevalence of 60 to 70 percent. Patients with low back discomfort are typically treated conservatively by physical therapists. Progressive muscles relaxation technique has been shown in several studies to reduce chronic back pain and increase flexibility. pressure biofeedback therapy works on Intra abdominal pressure.it helps to alleviate compression on lumbar spine and support the adjacent lumbar spine.The aim of this randomized controlled trial is to determine the effectiveness of pressure biofeedback training (Pr.BFB) in combination with progressive muscles relaxation technique (PMR) & progressive muscles relaxation training alone on pain, disability, ROM & endurance of muscles among nonspecific chronic low back pain patients.

Long-term pain affects one-third of the United Kingdom population and can be very disabling. People experiencing long-term pain often suffer from disturbed sleep because of their pain symptoms, and disturbed sleep can then make their pain symptoms worse. Managing long-term pain is also very costly to the National Health Service. The most common treatment is prescribed medicines, but these do not always work and can have serious side-effects for some patients. The investigators have been developing an alternative approach for treating long-term pain. This approach uses simple non-invasive tools to promote some kinds of brain activity over others. It involves patients using headphones to listen to some specific sounds, or a headset with lights flashing at particular frequencies. The studies undertaken so far seem to show that doing this can change how the brain responds to pain. It potentially offers an inexpensive yet effective way of reducing pain and improving sleep for patients with long-term pain. There are a few small studies that support this approach and more work is needed. In a recent study the investigators found that these tools can be reliably used in home settings and there were some indications that they improved symptoms. However, sleep was only measured with sleep diary and movement detection, there was no direct measurement of whether the stimulation frequencies were resulting in the desired brainwave changes. Finally, the benefit to symptoms may have been the result of other factors, such as the passage of time or placebo effect. Therefore this study extends the experiment, adding more accurate sleep monitoring which includes monitoring electrical activity in the brain (EEG), as well as providing rhythmic and non-rhythmic stimulation in a randomised order. The aim is to further test the effect of these home-based tools with individuals with long-term pain, in a more rigorous way. Up to 30 participants with long-term pain and pain-related sleep disturbance will use the tools for 30 minutes at bed time every day for 4 weeks (2 weeks with one type of stimulation, 2 weeks with another type). The changes in participants' pain, sleep, brainwave frequencies, fatigue and mood will be measured. These findings will inform the planning and design of a future much larger study to test this technology, if this is justified by the results.

This is a pragmatic, open label, randomized controlled trial with 1:1:1 allocation to 12 weeks of: (1) onsite yoga at opioid treatment programs (OTPs), (2) onsite physical therapy (PT) at OTPs, or (3) treatment as usual (TAU). Participants will be 345 individuals with chronic back pain receiving treatment for opioid use disorder (OUD) in community-based OTPs. Through research visits at screening, baseline, and months 1, 2, 3, 6, and 9, the investigators will evaluate pain and opioid use outcomes and implementation outcomes.

The primary endpoint of this study was to identify whether there is a pain improving effect of high thoracic eretor spinae plane block (ESPB) when compared with cervical epidural injection