8,716 Clinical Trials for Various Conditions
The goal of this clinical trial is to learn whether a 2-week gratitude journaling activity is feasible and acceptable for individuals with Temporomandibular Disorder (TMD) and chronic overlapping pain. The study will also look at whether this activity is helpful in reducing pain and how much it interferes with daily life. The primary aims of this study are to: * Assess whether individuals with TMD and chronic overlapping pain are able to complete the 2-week gratitude journaling activity as planned (feasibility). * Evaluate how acceptable participants find the gratitude journaling activity (acceptability). The secondary aim of this study is to: • Explore whether the gratitude journaling activity reduces pain and its impact on daily life, compared to a general wellness journaling activity. Participants will: * Attend two in-person visits to complete questionnaires and take part in tests that measure how sensitive they are to pressure and heat. * Complete a 2-week journaling activity at home, writing in their journal on three days of their choice per week.
In this study, the research team will use low-intensity focused ultrasound (LIFU) to temporarily change brain activity in a brain region that is known to be involved in chronic pain. Through this, the research team hopes to learn about how the brain area works in response to pain. There are main questions this study aims to answer: * The effect of LIFU to inhibit the posterior region of the insula (PI) compared to sham stimulation in individuals with chronic back pain (CBP) and widespread pain symptoms. * The effect of LIFU to PI compared to sham stimulation to reduce pain intensity and magnitude of the Neurologic Pain Signature (NPS) in response to evoked thermal pain. * The effect of LIFU to PI compared to sham stimulation to reduce pain intensity and magnitude of Tonic Pain Signature in response to tonic pain.
This new study builds on the principal investigator's earlier studies to improve communication about pain. The research team seeks to better understanding of the mental processes needed to rate pain.
Health inequalities in chronic pain exists in the US, with a greater burden of chronic pain and higher rate of misdiagnosis and undertreatment reported in minoritized groups compared to non-Hispanic Whites. Asian Americans (AA) are the fastest-growing racial/ethnic group in the US, yet despite the rapid growth in their numbers, AA remain under-represented in pain disparity research. Cultural norms of Asians may discourage reporting their pain to avoid burdening others or being seen as weak. Rather than seeking medical assistance, Asians have been reported to tend to accept the pain as natural or to suffer to maintain their independence. Very few evidence-based programs are available that can be implemented for this linguistically/socially isolated population in the US. This proposed study aims to fill critical knowledge gaps in pain disparity research by providing evidence of feasibility and acceptability of a culturally-tailored psychosocial pain education intervention for an underrepresented population using the KA community as an exemplar.
This research project is examining the effects of noninvasive brain stimulation on chronic pain. We believe this study will help us to better understand possible treatments for chronic pain patients. Subjects will undergo functional magnetic resonance imaging (fMRI) and a computed tomography (CT) scan, which is a way to take pictures of the brain and skull. Subjects will receive noninvasive brain stimulation using low-intensity focused ultrasound (LIFU) sound waves, to temporarily change brain activity. Subjects will undergo pain testing using a small device that will increase the temperature of their skin and will rate this pain. Brain signals (EEG), heart rate and rhythm, blood pressure, respiration rate, and skin moisture will be monitored. Subjects will complete behavioral questionnaires. Each study session is expected to take 1.5-3 hours. Total participation takes 10 weeks.
The purpose of this study is to assess the ability of long-duration low intensity therapeutic ultrasound (LITUS) to alleviate knee Osteoarthritis pain over a 24-week period. The primary objective of this study is to evaluate the analgesic effect of LITUS in subjects suffering from knee Osteoarthritis pain. Secondary objectives are to assess the ability of LITUS to improve joint function.
The purpose of this study was to determine whether adding Lidocaine to Corticosteroid injections reduce pain intensity in hand surgery.
Chronic neuropathic pain affects 69% of adults with spinal cord injury (SCI). Current treatment options are limited (primarily pain medications) with insufficient benefits and significant risks for addiction and adverse effects. Of the available mind and body approaches, Qigong is the most accessible for adults with SCI with evidence for effectiveness in reducing pain, but there is insufficient evidence to make recommendations for adults with SCI. Thus, the feasibility of Qigong in SCI needs to be established. To support our feasibility study, we investigated a 12-week remote Qigong program in adults with SCI and neuropathic pain. We recruited 23 adults with SCI, 18 completed the study, and 12 completed the 1-year follow-up. They practiced Qigong 138% of the required intensity (which was, at least 3x/week with Qigong video through the internet). Their pain was reduced by 44% after 12 weeks of Qigong practice and was still reduced at the 6-week and 1-year follow-up. However, three key elements need to be addressed before performing a larger effectiveness study: (1) feasibility/acceptability of Qigong from adults with SCI of diverse backgrounds; (2) feasibility of the study design with control group); and (3) objective outcome measures. This R34 feasibility study, the HAPPINESS trial (cHAnging the Perceived Pain INtensity in divErSe populations with Spinal cord injury), will expand on our prior study to consolidate feasibility with a rigorous protocol. We will address the following aims: AIM 1. Identify the facilitators/barriers to participating in a Qigong study through focus groups/interviews with stakeholders from diverse backgrounds, defined as Hispanics, veterans, and adults living in rural, underserved areas. AIM 2. Establish the feasibility of study design/methods of the HAPPINESS trial in adults with SCI (at least 50% of diverse backgrounds) through pre-specified targets for recruitment/enrollment, feasibility, and acceptability of design and outcomes. Using a Phase I randomized controlled trial design, 40 adults with SCI-related neuropathic pain will be randomized to 12-week remote Qigong intervention OR a short daily pain management survey that can be completed on phone/iPad/computer + 6-month follow-up. The study results will facilitate a rigorous structure to design larger effectiveness studies and facilitate a clear pathway for researchers to investigate Qigong and other mind-body approaches for whole-person health in diverse groups of adults with chronic/neurological disorders.
This study will identify unique signatures that people have which can cause pain by evaluating biological, psychological, and social markers using artificial intelligence. These markers can be used to accurately predict the response of diverse individuals with chronic low back pain (cLBP) to Mindfulness-Based Stress Reduction. This will help enhance clinician decision-making and the targeted treatment of chronic pain. The overall objective is to use a unique machine learning (ML) approach to determine the biomarker signature of persons undergoing mindfulness based stress reduction (MBSR) treatment for their chronic low back pain (cLBP). This signature will facilitate clinical prediction and monitoring of patient response to MBSR treatment. The design of the study is a single-arm clinical trial of the evidence-based MBSR program for patients with cLBP.
The Neurolyser XR is a device used to deliver high-intensity focused ultrasound for the ablation of the lateral sacral branch nerve in patients with Sacroiliitis.
The purpose of this study is to assess the ability of long-duration low-intensity therapeutic ultrasound (LITUS) to alleviate bone-fracture related pain over a 12-week period. The primary objective of this study is to evaluate the analgesic effect of LITUS in subjects suffering from bone-fracture pain. Secondary objectives are to assess the ability of LITUS to improve patients return to work time.
The purpose of this study is to assess the ability of long-duration low-intensity therapeutic ultrasound (LITUS) to alleviate knee Osteoarthritis pain over an 8-week period. The primary objective of this study is to evaluate the analgesic effect of LITUS in subjects suffering from knee Osteoarthritis pain. Secondary objectives are to assess the ability of LITUS to improve joint function.
The purpose of this study to perform a randomized, sham controlled analysis of the effectiveness of both fSWT and rWT in the relief of erectile dysfunction and chronic pelvic pain syndrome.
Study investigating the potential benefit for chronic pain patients (CRPS and FM) using low-intensity focused ultrasound for neuromodulation.
This study will evaluate a new form of non-invasive deep brain therapy for individuals with generalized chronic pain. Low-intensity transcranial focused ultrasound stimulation will first be delivered using a range of stimulation parameters during psychophysical and physiological monitoring. A well-tolerated stimulation protocol will be selected for subsequent testing in a blinded randomized sham-controlled cross-over trial. The trial will evaluate brain target engagement using magnetic resonance imaging and CVAS and PROMIS numerical rating scales of pain.
The purpose of this study is to learn more about improving the quality of treatments for people who have chronic low back pain. Participants will complete interviews with Duke researchers at four different time points: the beginning of the study, at 3 months, at 6 months, and at 9 months. Participants will be asked to use a mobile app and a headset that are designed to train the brain to be more relaxed. Participants will use the mobile app for 10 minutes at a time, four times a week for three months. The study team will also check in with participants about app use six times throughout the study, via phone or video conference.
The purpose of this research is to identify physiological markers to determine pain intensity and build an Artificial Intelligence (AI) enabled system to objectively measure pain intensity. Researchers hope to personalize pain medication regimens to help prevent medication over-use.
The purpose of this study is to compare Sustained Acoustic Medicine treatment to topical pain relief gel for the symptomatic management of osteoarthritis. The study will measure pain and function scores for patients undergoing treatment.
This project examines the effects of noninvasive brain stimulation on pain. The investigators believe this study will help to better understand possible treatments for chronic pain patients. Participants undergo structural imaging, a functional Magnetic Resonance Image (fMRI) and computed tomography (CT). These images are used to align the low-intensity focused ultrasound (LIFU) device which uses sound waves to temporarily change brain activity. Pain testing is done using a small device that will increase/decrease the temperature of the skin. Brain signals are collected using electroencephalography (EEG). Heart rate, blood pressure, and skin moisture will be monitored as well.
The purpose of this study is to evaluate the usability of the ultrasound devices and common pain relief gel. The ability of the three treatment approaches to reduce pain, stiffness, and functionality as measured by NRS scale and the Western Ontario and McMaster Universities Arthritis Index (WOMAC) will be evaluated.
The present study involves a randomized clinical trial of Digital Cognitive Behavioral Therapy (dCBT) targeting worry and anxiety symptoms in a population with chronic pain and clinical levels of generalized anxiety disorder (GAD) symptoms. The clinical trial calls for the recruitment and randomization of 80 individuals with chronic musculoskeletal pain and clinical levels of GAD symptoms to either a dCBT program or a waitlist (Control) condition. The current research represents the first-step investigation of a treatment strategy with the potential to enhance care for patients with chronic pain by introducing a scalable, affordable, and system-friendly digital intervention (dCBT) that targets a prominent source of distress and associated disability in these patients. The investigators propose that by targeting GAD in chronic pain in a way that does not tax engagement in ongoing medical care provision, there is the potential to improve the uptake of effective care and to address both GAD and associated distress and disability.
170 patients with rotator cuff syndrome will be filmed abducting and flexing their arms before learning a simple maneuver that alleviates most of the pain 90% of the time. They will then be filmed performing the same abduction and flexion of their arms. The patients will rate their pain on the common 10-point pain scale after abducting and flexing their arms before and after the maneuver.
The anterior nuclei of the thalamus in addition to periaqueductal gray (PAG) and rostral ventromedial medulla (RVM) are integral regions of a supraspinal opioidergic structure that regulate pain perception. With the capability to influence deep neurological tissues, low intensity frequency ultrasound pulsation (LIFUP) can likely modulate this circuit and induce analgesia. LIFUP deep brain modulation is achieved by induction of focused mechanical waveforms that traverse the cranium and underlying brain tissue. The low frequency of the ultrasonic wave consequently alters neuronal transmission and causes action potential variations through mechanical means, rather than thermal. The purpose of this study is to examine whether stimulation of the anterior nuclei of the thalamus via LIFUP induces analgesia. We hypothesize that suppression of the anterior nuclei of the thalamus will induce a temporary increase in pain tolerance. Moreover, the behavioral changes in pain will correlate with specific regional BOLD changes during pain.
The purpose of this research study is to evaluate physical activity intensity levels, enjoyment, and pain perception during virtual reality (VR) active games in healthy young adults.
Pain in children and adolescents with cerebral palsy (CP) is a significant health challenge that so far has received too little attention. We lack knowledge on how pain is experienced, its consequences and of perceived support in managing pain. The overarching aim of the CPPain-program is to reduce pain experience, pain interference (e.g. pain burden) in children and adolescents living with CP. CPPain has a prospective cohort comparative design and will include before- and after measurements and process evaluation of a nested intervention. This protocol concerns qualitative and quantitative data collection for the baseline of the CPPain program. The aim of the baseline data collection is to contribute in-depth knowledge of the pain burden in children and adolescents with CP. This knowledge is required to develop targeted pain-diminishing interventions in this vulnerable group of children with a high burden of challenges related to their chronic disease. In the next step, nested intervention will be co-created with children and adolescents with CP, their parents as well as health care professionals, and other professional caregivers involved in or responsible for management of pain based on existing research and baseline findings.
The purpose of this study is to determine whether a high intensity kettlebell workout, utilizing a Tabata protocol format, can decrease objective measures of pain pressure threshold in subjects without low back pain. The results of the study could have implications for the use of high intensity kettlebell workouts in the rehabilitation of patients with low back pain.
The purpose of this study is to evaluate two experimental pain models to see if they would be useful for comparing different products for reduction in pain intensity. The models evaluated were the ultraviolet-B (UVB) burn and intradermal capsaicin experimental pain models. Medications compared were a single dose each, of intravenous (IV) acetaminophen, oral acetaminophen, placebo, and IV morphine.
The purpose of this research study is to determine what causes pain after surgery to increase or decrease over time.
The primary purpose of this protocol is to assess the ExAblate 2100 MR guided high intensity focused ultrasound device as an intervention for treatment of facetogenic lower back pain.
The purpose of this study is to investigate whether pulsed electromagnetic energy field (PEMF) therapy is effective in the treatment of persistent pain following total knee arthroplasty (TKA)