View clinical trials related to Chronic Pain.
Filter by:In this work the investigators will study the relationship between chronic musculoskeletal pain and abnormal blood flow (neovascularity) around the shoulder, hip and knee. Veterans with as history of chronic shoulder, hip or knee pain and mild/moderate joint degenerative changes will be potential study subjects. Blood flow around joints will be evaluated using perfusion magnetic resonance imaging (MRI). Participants with demonstrably abnormal blood flow around their painful joint will be eligible for enrollment in a pilot study of joint embolization to treat their pain. Participants who choose to not undergo treatment will be re-assessed with MRI after one year to characterize the natural history of joint neovascularity and its relationship to pain.
The investigators aim to conduct a randomized controlled trial to test the feasibility of a mind-body walking program compared to a health education program for individuals with chronic musculoskeletal pain. The investigators will assess the feasibility of recruitment procedures (enrollment, recruitment of racial and ethnic minorities) and intervention delivery (fidelity, adherence, credibility, satisfaction, optimization), following pre-specified benchmarks. Both programs will be delivered in-person.
This study aims to explore the effect of Fecal Microbiota Transplantation (FMT) on the clinical symptomatology in Chronic Widespread Pain (CWP), to assess the acceptability, tolerability, and safety of FMT in patients with CWP, as well as explore the effect of FMT on the gut microbiome diversity in CWP. The investigators hypothesize that fecal microbiota transplantation will reduce pain intensity in patients with CWP, is acceptable, safe, and tolerable in patients with CWP, and will achieve change of gut microbiome diversity after FMT treatment.
Although most people recover from acute pain (such as pain caused by injury, surgery, repetitive motion, or unknown causes), many people do not fully recover and will experience chronic pain. Untreated posttraumatic stress disorder (PTSD) appears to be a key risk factor for the transition from acute pain to chronic pain. However, few published studies have addressed the issue of preventing the transition from acute to chronic pain via PTSD reduction. This project will aim to test whether trauma-related PTSD symptoms can be reduced using either Stellate Ganglion Block (SGB) treatment or Cognitive Processing Therapy (CPT), and whether reducing PTSD symptoms can prevent the transition from non-injury based acute pain to chronic pain.
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.
Chronic pain is a prevalent, disabling problem affecting as many as 50% of men and 75% of women Veterans. Cognitive Behavioral Therapy (CBT) is the current gold standard treatment for chronic pain. However, while some individuals do respond to CBT, many individuals do not obtain meaningful benefit. As a result, the average response to CBT treatment in groups of individuals with chronic pain is only modest. To address the need for effective treatments, the investigators have developed and adapted Complementary and Integrative Health (CIH) interventions such as Mindfulness-Based Cognitive Therapy (MBCT) and Hypnotic Cognitive Therapy (HYP-CT) for chronic pain management. Research shows these treatments are beneficial alternatives to CBT. However, as with CBT, response to these treatments varies, and the investigators' preliminary data suggests outcome variability is explained by a number of baseline patient factors. Research is now needed to advance knowledge regarding the pre-treatment patient factors (i.e., predictive markers) that moderate treatment outcome (i.e., patient factors that interact with treatment condition to predict outcome). The findings from this research will provide an empirical basis for developing patient-treatment matching algorithms to prospectively match a given individual to the evidence-based treatment most likely to be beneficial for them. The investigators have initiated a program of research to identify the factors that predict response to psychosocial pain treatments, including HYP-CT, MBCT, and CBT. Preliminary findings suggest that predictive markers such as brain activity (e.g., alpha and beta power, as measured by EEG), and the traits of mindfulness, hypnotizability, and catastrophizing, will predict who benefits most from different treatments. For example, post hoc analyses show that those who are "well-matched" to HYP-CT, based on the identified baseline moderators, achieve twice the amount of pain reduction with treatment, compared to those who are not well- matched. To confirm these findings, prospective research is now needed. The findings from this study will provide a foundation upon which to develop an assessment battery to identify critical values on which to base algorithms for a priori matching of individual patients to different treatments. This has the potential to substantially boost the typically modest average effect sizes that are achieved when using a more traditional "one size fits all" approach.
In order to assess the validity and reliability of the Turkish version of Pain Modulation Index, 125 volunteers with chronic pain were enrolled in the study. Test and re-test method was used to assess reliability and correlation analyses with Pain Detect, visual analog scale pain and central sensitization inventory scores were used to assess validity of the questionnaire. Turkish version of the Pain Modulation Index was found to be a valid and reliable tool for evaluating chronic pain.
This is an experimental medicine, single-centre, observational test-retest study to evaluate Filgotinib's mechanism of analgesic action in RA patients. The investigators hypothesize that Filgotinib's mechanism of analgesic action is determined by at least two factors. The first is related to those CNS sensitization pathways seen in fibromyalgia, specifically DMN-insula brain functional connectivity and insular glutamate. The second is related to peripheral inflammation, specifically joint synovitis, blood cytokines/chemokines and DAN-LIPL functional brain connectivity. The CNS sensitization pain pathways related to fibromyalgia are more quickly modified compared to those related to peripheral inflammation and help explain Filgotinib's rapid onset of effect.
This project is part of the NIH Helping to End Addiction Long-term (HEAL) initiative (https://heal.nih.gov/). This pilot randomized controlled trial (RCT) is part of phase 1 of a two-phase, 5-year project with the overarching goal of testing a decision aid (DA)/coaching intervention, tailored to Black patients with comorbid chronic pain and depression, to encourage use of and adherence to nonpharmacological pain treatments (NPTs). This 2-arm pilot trial will aim to enroll up to 40 Black patients with comorbid chronic musculoskeletal pain and depression in primary care from an urban safety-net health system with the end goal of at least 30 patients completing the trial. After the baseline assessment, patients randomized to the intervention will be asked to participate in 4 coaching sessions over approximately 12 weeks. Sessions will use Motivational Interviewing principles to foster openness to NPTs and self-efficacy by helping patients identify their goals and priorities, understand their NPT options, prepare them to discuss and choose options with their primary care providers (PCPs), and reinforce these choices to foster maintenance of these changes. DA contents will be integrated into these sessions, which will facilitate discussion of these options with their PCP. The first 3 sessions take place prior to the patient's next scheduled PCP visit; the final session occurs after this visit. Assessments will be conducted at baseline, 3 months (i.e., after completing the final coaching session), and 6 months. Patients randomized to the wait-list control group will receive usual care (in addition to study assessments at baseline, 3 months, and 6 months). After completing the final assessment, they will then be given the DA along with a 20-minute coaching session to walk them through it (patients may decline the coaching session or schedule for a future time).
In the proposed trial, the investigators plan to refine interventions, then conduct a small randomized trial to provide critical information to inform a future large-scale randomized efficacy trial of Tai Chi for Post Traumatic Stress Disorder (PTSD) and chronic pain. Building on the combined experience the proposed study will progress in new directions to: 1. Adapt, refine, and standardize two 12-week treatment protocols (Tai Chi and a Wellness control condition) for Veterans diagnosed with PTSD and chronic musculoskeletal pain during Phase One. Tai Chi and Wellness interventions will be adapted for delivery via a videoconferencing platform for the population and piloted in a 'dry run'. 2. Determine the feasibility and acceptability of a remotely delivered randomized trial of these two interventions and the assessment protocols during Phase Two. 3. Utilize information from this trial to plan and design a large randomized control study evaluating the efficacy of Tai Chi compared to Wellness for improving outcomes for Veterans with PTSD and chronic musculoskeletal pain.