View clinical trials related to Low Back Pain.
Filter by:The primary aim of this study is to compare the effects of an exercise program based on movement control exercises associated with self-management advice (SME) or pain neuroscience education (PNE) on the outcomes of pain intensity and pain disability in patients with chronic non-specific low back pain (CLBP).
In this study, the investigators will examine the analgesic effects of acupuncture imagery treatment in patients with chronic low back pain. The intervention used in this study is "video-guided acupuncture imagery treatment" (VGAIT) treatment. The control used in this study is sham (fake) VGAIT. Participants in each group will participate in 8 study sessions (including 6 treatment sessions) over the course of 6 weeks. The primary outcome measure for this study is change in low back pain severity score after each treatment session.
The study evaluates the effectiveness of Ultrasound-guided Percutaneous Neuromodulation in the lumbar multifidus of L3 in non-specific chronic low back pain.
Low back pain (LBP) is the second cause of medical visits in France. Indeed, its incidence can vary between 60 and 90%. LBP is also the leading cause of disability in the adult population in France and in the rest of the world. Its evolution towards chronicity is observed in less than 8% of cases, but it is responsible for 85% of the medical costs. Degenerative disk disease (DDD) is a major cause of chronic LBP (> 40%). DDD can be characterized by peculiar Magnetic Resonance Imaging (MRI) features with a strong correlation between pain and inflammatory aspect of the disk, which result in the so-called active discopathy (AD) (Brinjikji et al. 2015). Modic classification based on MRI of the lumbar spine is considered as a reference. Type 1 Modic signal changes are characterised by a low-intensity signal on T1-weighted sequences and hyperintense signal on T2-weighted sequences, with gadolinium injection enhancement, corresponding to bone marrow oedema. Type 1 Modic is very rare in an asymptomatic population but may be found in 5% to 40% of chronic LBP patients underscoring its symptomatic involvement. No currently reference treatment is available for AD. PRP technology has recently been widely developed in osteoarthritis and tendon injuries. Therapeutic benefit of PRP has being evaluated. For instance, no randomized controlled trials (RCTs) have specifically evaluated the effect of PRP in AD (Modic 1 signal). The availability of PRP for intra- discal injection could become an innovative therapeutic option in humans, especially for AD forms where inflammatory process is clearly predominant. The objective of the study is to evaluate the 3-month efficacy on pain and function (by achieving 30% improvement in Oswestry Disability Index) of one intra-discal PRP injection versus placebo (saline solution) in subjects with LBP associated with AD lasting more than 3 months.
SPECIFIC AIMS Pain in both youth and adults is a complex, subjective and personal experience, and remains poorly understood. One particularly perplexing dimension of some forms of pain is the tendency of pain to spread outside of an affected body site to adjacent location, and then to unaffected body sites. Such widespread pain may reflect an altered spatial tuning of somatosensory processing, such that lateral inhibition is diminished, thereby allowing pain to spread. To date, no therapies exist which are designed specifically to diminish or even reverse the spatial spread of pain. However, training in two-point discrimination holds the potential to retune spatial aspects of somatosensory processing and may represent a novel therapy for widespread pain. Thus, the present investigation will test the following aims: Aim 1. Do youth with chronic pain have disrupted spatial tuning of somatosensory processing? Deficits in two point tactile discrimination have long been noted in adults with chronic pain, but such deficits remain poorly documented in pediatric chronic pain patients. In order to determine if such deficits exist, youth with both chronic pain and healthy youth will undergo assessment of two point discrimination thresholds. Aim 2. Does two-point discrimination training result in diminished pain and disability in youth with somatic pain? After initial characterization of tactile discrimination thresholds, youth with chronic pain will participate in multiple sessions of either two-point discrimination training or a single-point spatially-directed attentional control condition. Training will involve up to 9 additional sessions. Efficacy of training will be assessed by 1) reductions in the spatial extent of pain, 2) reductions in pain intensity and unpleasantness, and 3) reductions in pain-related disability.
The central scientific premise of the proposed study is that sleep disruption (SD) will influence individuals' subjective response to blinded medication administration. The investigators further believe these responses will vary among patients who have chronic low back pain (CLBP) vs. healthy controls, and that sex will moderate effects. The proposed study evaluates whether CLBP patients' subjective responses to study medication administration are altered by SD. The investigators focus on two outcome domains: abuse liability (i.e., drug liking and valuation) and response to pain testing. The investigators propose a mixed between-within randomized crossover human-laboratory experiment that investigates placebo-controlled effects of study medication on 1) abuse liability metrics (Drug Liking and Monetary Valuation) and 2) response to laboratory-evoked standardized pain measures, after one night of uninterrupted sleep (US) and again after one night of SD. The investigators will recruit both CLBP patients(*) and healthy controls (N = 60). (*) We originally aimed to accrue 60 subjects with CLBP. However, we have been granted approval by the National Institute on Drug Abuse (NIDA) to reduce expectations for the target N for the CLBP cohort. We are no longer expected to recruit N=60 CLBP participants; this is a COVID-19 modification, and we are not required to re-do a power analysis.
Systematic reviews evaluating the effectiveness of supervised exercise therapies commonly conclude that, to date, there is no evidence to support the superiority of one form of exercise over another. Randomized controlled trials to date included mostly trunk strengthening exercises (e.g. bird dog, plank) and there is no evidence about supervised, individually graded integral movement therapy program for patients with chronic low back pain (CLBP). The research design is a randomized clinical trial with parallel-group design including two intervention groups: integral movement therapy and conventional local movement therapy. Participants in each group will receive 20 supervised sessions in a 10 week period, two times per week, with approximately 1 hour per session. Outcome assessments will occur at baseline and immediately post-intervention, follow up will take place at 6 months and 12 months after finishing the intervention. Pre specified analyses will evaluate the main effects of the treatment. This trial will use a novel, previously unexplored integral approach to CLBP through exercises. In contrast to commonly used exercise programs, the integral program does not include specific local strength exercises for hip and trunk flexors and extensors. However, learning dynamic trunk muscle control in various body positions with added limb movements could be beneficial because of the parallels to everyday work. The study will contribute to clinical practice by providing evidence to guide professionals when deciding for the proper and efficient treatment of patients with CLBP.
To delineate the underlying mechanisms that contribute to chronic low back pain, by extending our knowledge on structural characteristics of the lumbar multifidus muscle using ultrasound muscle imaging, and by examining the association of structural features with functional performance, more precisely proprioceptive control.
Brief Summary: Low back pain is very common problem in all the developed countries and affects children to elderly. Based on the etiology the low back pain is divided into two type: nonspecific and specific low back pain. If the pathological reason is known it is defined as specific and if the reason for the pain is unknown it is defined as nonspecific low back pain. The postulated reason for nonspecific low back pain is the segmental instability of the lumbar spine. Diaphragm muscle has a role in maintaining the segmental stability. The aim of this study to reduce the severity of the low back pain with improving the stability of the lumbar spine by using diaphragm training.
The GLA:D Back project evaluates the implementation of standardised patient education and exercise therapy for people with persistent or recurrent low back pain (LBP) in a hybrid implementation-effectiveness design. This involves evaluating the process of implementation as well as clinician level outcomes and patient level outcomes. GLA:D (Good Life with OsteoArthritis in Denmark) is a non-profit initiative and registered trademark from the University of Southern Denmark. It educates clinicians in delivering evidence-based care for musculoskeletal health conditions and registers outcomes in a clinical registry. GLA:D Back uses only the acronym. The main activity of the implementation strategy is a two-days course for physiotherapists and chiropractors in delivering patient education and exercise therapy that is aimed at supporting patient self-management of LBP. This comes with ready-to-use patient education materials and exercise programs. The course is targeted at chiropractors and physiotherapists, but any health care provider authorised to treat patients with back pain in Denmark can participate, i.e. medical doctors, physiotherapists and chiropractors. The clinical intervention is a group-based program consisting of two sessions of patient education and 8 weeks of supervised exercises. The program uses a cognitive-behavioural approach and the aim of the exercise component is to restore the patient's ability and confidence to move freely. Clinicians decide which patients are offered the program. The implementation process is evaluated in a dynamic process monitoring the penetration, adoption and fidelity of the clinical intervention. The education of clinicians is evaluated via clinician-level outcomes concerning attitudes towards back pain and confidence in managing people with LBP. The clinical intervention and potential effect mechanisms are evaluated at the patient-level in an observational design. Patients who are participating in the GLA:D Back program are followed using measures of knowledge, skills, beliefs, performance, self-efficacy and success in self-management. Effects at a national level will be investigated via data from national registries of health care utilisation and sick-leave. Patient- and clinician reported data are collected in a registry.