View clinical trials related to Back Pain.
Filter by:This is a single-center, randomized, pilot study in adult subjects with facet mediated CLBP. Thirty (30) subjects are planned for initial enrollment and will be randomized 1:1 to receive ioveraº medial branch cryoneurolysis or radiofrequency ablation.
Our aim in this study is to examine the effectiveness of the Backup spine health device in spinal problems and compare it with traditional physical therapy methods.
This study was planned to examine the effect of Kinesio® Tex application on pain, functionality, sleep quality and work performance in drivers experiencing neck-back pain.
Hip flexion is a normal part of everyday functional activities, including walking and sitting. The length of the hamstring influences on movement of the pelvis during hip flexion, consequently influencing lumbar lordosis. In most activities, the hamstring muscles are active and it is necessary to keep them at normal length. Sitting posture is responsible for the loss of the natural curvature of the lumbar spine, because the hip flexion and pelvic extension flatten the lumbar vertebrae (i.e., lumbopelvic rhythm). Furthermore tightened hamstring increases posterior pelvic tilt and reduces lumbar lordosis, which can tend to low back pain (LBP). Stretching exercises play an important role in both the prevention and treatment of LBP. One important option will be exercise protocol which will combine the active hamstring flexibility exercises with hip flexion mobilization and the development of the habit of correct hip flexion technique, protecting the lower spine. The aim of this RCT is to present a protocol for evaluating the effect of 8-week active hamstring flexibility exercises with hip flexion mobilization in reducing LBP and perceived musculoskeletal discomfort during prolonged sitting in young adults with non-specific LBP.
The purpose of the present study was to examine the effects of traditional mat exercises, Reformer Pilates and Hammock Yoga approaches on pain, endurance, balance, disability, and quality of life of individuals who had Chronic Back Pain.
Chronic low back pain is defined as pain that lasts for more than 3 months or exceeds the expected recovery time.
The goal of this clinical trial is to compare the Erector Spinae plane (ESP) block, a nerve block, to usual care in emergency department patients with back pain. The main question it aims to answer: Is the ESP block superior to usual care in the treatment of back pain in the emergency department? Participants will be randomly assigned to the ESP or the usual care group. Pain improvement at the time of emergency department discharge will be compared.
Data will be collected at Pakistan Sports Board Lahore. Study design will be Randomized Clinical Trial. Sample size is 28. Population will be divided into two Groups by Convinient Sampling Technique. Group A willl be Treated with Dynamic Cupping And Group B will be Treated with Soft Tissue Myofascial Release. Inclinometer, Back Pain Functional Scale, Functional Mobility Scale and Numerc Pain Rating Scale will be used to generate the outcomes of study.
Low back pain is common problem the purpose of this research will be to determine the comparison of ultrasound therapy and myofascial release technique for treatment of low back pain in adults.
The goal of this clinical trial is to investigate mechanism underlying lumbar multifidus muscle (LM) activation deficits in adults with chronic low back pain (CLBP). The main questions it aim to answer is whether motor cortex or muscular level is the underlying mechanism responsible for the LM activation deficits. Participants will: - Undergo cortical excitability measurement using transcranial magnetic stimulation, LM activation measurement using ultrasound imaging, and force measurement using hand-held dynamometer. - Be randomly assigned to either repetitive magnetic stimulation (rTMS) or neuromuscular electrical stimulation (NMES) - Undergo all measurement at post-intervention Researchers will compare within and between groups to see changes in cortical excitability, LM activation, and force.