View clinical trials related to Chronic Low Back Pain.
Filter by:Objective of study is to evaluate the procedural success rate, clinical effectiveness, and heath-economic profile using the Intercept Intraosseous Nerve Ablation System in adult subjects with chronic low back pain in the post-market setting
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.
The purpose of this investigational study is to study the effects of Stimgenics Spinal Cord Stimulation (SGX-SCS) in subjects with chronic, intractable pain of the trunk with lower limb pain, including unilateral or bilateral pain associated with the following conditions: failed back surgery syndrome, intractable low back pain and leg pain.
The investigators would like to know which one of two exercise programs will have a greater effect on balance, functional performance, daily function, and pain on individuals with low back pain (LBP) after 2, 4 and 8 weeks. Specifically, the differences in dynamic balance, functional performance, pain intensity, and disability level will be compared between participants who receive spinal stabilization exercises program (SSE) and those who receive a general exercise program (GE) which includes range-of-motion (ROM) and flexibility exercises. The research hypotheses are: 1. The SSE program will significantly improve dynamic balance and functional performance in adult participants with sub-acute and chronic LBP at two and four weeks as well as after an eight-week follow-up after initiating intervention. 2. The SSE program will significantly improve pain intensity and disability level in adult participants with sub-acute and chronic LBP at two and four weeks as well as after an eight-week follow-up after initiating intervention. 3. In adult participants with sub-acute and chronic LBP, the group receiving the SSE program will demonstrate significantly improved dynamic balance, functional performance, pain intensity and disability levels compared to the placebo group receiving the GE program at two and four weeks as well as after an eight-week follow-up after initiating intervention.
A BIOTRONIK wearable stimulator will be utilized in order to investigate the effects of two study spinal cord stimulation (SCS) therapies on subject reported pain and paresthesia perception observed over 12 days of study stimulation testing following the conclusion of a successful SCS commercial trial.
Almost one-third (30%) of persons 60 years and older suffer from cLBP and cause a significant negative impact on individuals and society in the U.S. The goal of managing cLBP is decreased pain and disability.To accomplish this, cLBP sufferers often use analgesics including opioids to decrease pain and facilitate activity, but the side effects caused by these medications are problematic. A better pain management strategy clearly needs to be developed. The investigators propose to test auricular point acupressure (APA), a non-invasive, easily administered, patient-controlled, and non-pharmacological strategy, to provide rapid, safe, and an innovative solution for chronic low back pain (cLBP) in older adults. APA involves an acupuncture-like stimulation of the ear without needles. With APA, small seeds are taped to specific ear points. The patient is taught to apply pressure to the seeds, with the thumb and index finger, three times a day (morning, noon, and evening) for three minutes each session to achieve pain relief. The investigators have developed a detailed APA protocol to teach health-care providers without experience in acupuncture and traditional Chinese Medicine that investigators can learn about APA in brief educational seminars as a treatment including the systematic identification of ear points (called auricular diagnosis). The investigators teach methods that enable patients to continue using APA to self-manage participants' pain. Brain imaging studies in acupuncture indicate that acupuncture can restore normal functional connectivity related to pain reduction. Studies suggest that stimulation of ear points (1) excites the somatotopic reflex system in the brain and that pathological brain patterns are electrically reset to stop the unwanted activation of spinal pain pathways, explaining the possible immediate pain relief that patients feel after APA and (2) cause a broad spectrum of systemic effects, such as vasodilation, by releasing endorphin to elicit short-term analgesic effects or neuropeptide-induced anti-inflammatory cytokines, which may explain long-term effects. The Ecological Momentary Assessment (EMA) smart phone app will be used to collect real-time cLBP outcomes and adherence to APA practice. Treatment and nonspecific psychological placebo effects will be measured via questionnaires for all participants. Neuro-transmitters is measured by inflammatory biomarkers. Blood samples will be collected for serum collection and a multiplex bead-based immunofluorescence assay performed to check for serum levels. Mini-Mental State Examination will be used to screen for cognitive function, also HRQoL, satisfaction, treatment beliefs and expectations, sleep, relaxation effects, catastrophizing and fear/avoidance, and placebo effects will be measured.
Spinal Cord Stimulation (SCS) uses electrical signals to disrupt noxious signals arising from painful areas, thereby reducing pain perception. Successful SCS implants lead to a broad range of positive outcomes: 1) long-term pain can be expected to be reduced by at least by 50%; 2) quality of life as assessed by subjective measurements improves substantially; 3) patients can significantly reduce opioid medication intake.1 However, the impacts of SCS intervention on neuromuscular and biomechanical outcomes including gait and balance have not been fully explored. Fifty subjects with symptomatic leg pain and/or low back pain (LBP) who are deemed appropriate SCS candidates and are scheduled for surgery will undergo gait and balance analyses preoperatively as well as 6 weeks and 3 months post operatively. In addition, 50 control subjects having no pain will undergo 1 session of gait and balance assessment. Objective spine and lower extremity motion and neuromuscular control will be evaluated using dynamic surface EMG and a video motion capture system during functional evaluation. Also, explored will be the relationship of changes in gait and balance to psychosocial factors that have previously been shown to be correlated with SCS outcomes.
Low back pain (LBP) is currently the most common cause of functional impairment with regard to the musculoskeletal system1. LBP occurs in men and women in all age groups and has a peak incidence between 30 and 65 years. Although 10% of the persons with LRP can be diagnosed with a specific underlying pathology (e.g., disc herniation, canal stenosis, spondylolysis, ...), 90% have symptoms with an unclear origin. 23% of the latter group will eventually develop chronic nonspecific low back pain (CNSLBP)2. Exercise therapy is seen as an important component in the rehabilitation of persons with CNSPLBP3. Because previous research showed reduced muscle strength of the back muscles4, exercise therapy that improves / recovers muscle strength is being investigated. However, there is still a lack of clarity concerning the effect that reduced muscle strength has on the development and further development of back pain5-6. The objective testing of back muscle strength remains a recurring issue. Up to now, back muscle strength has been mainly tested by a battery of clinical tests (eg Sorensen test) or the use of "iso machines"7. These Iso machines contain a dynamometer that can very specifically reflect the isometric or isokinetic force on an axis of rotation. Different types of these iso machines (eg Cybex, Biodex) have already been developed, each with specific designs (eg differences in the hip angle, differences in the stabilization of the participant). However, to date no standardized protocols are available for evaluating both abdominal and back muscle strength. Furthermore, it is also essential that before such systems can be used in clinical intervention studies, the reliability of such systems is investigated and that reference data from healthy subjects are collected with which data from patients can be compared. The aim of the current research is therefore to investigate the intra- and inter-operator reliability of a standardized protocol drawn up according to the latest scientific evidence. A second goal is to set standard values for healthy persons for the developed protocol using the Biodex 3 dynamometer system.
This study assess ocular movements in a hand laterality judgment task in a population of musculoskeletal disorders. Reaction time, error rate and visual strategy are compared between musculoskeletal disorders and healthy patients, and between the different locations of the disorder.
The purpose of this study is to compare two different ways to treat chronic low back pain. The two types of treatment that the investigators will compare are called Usual Care and ABC Care. Usual Care tends to focus on the spine. ABC Care focuses on the entire body and the mind. With Usual Care, participants will work with their own doctor to come up with a treatment plan. With ABC Care, participants will work with the investigators' ABC providers and their team. The investigators believe ABC Care will help reduce pain, lower costs, and increase participants' ability to do the things they enjoy doing better than Usual Care. In ABC Care the investigators hope to avoid treatments like surgeries where participants get metal rods put in their back. This research is being done at three Veterans Hospitals: the Veterans Administration of Pittsburgh Healthcare System (VAPHS) in Pittsburgh, PA; the North Texas VA Medical Center in Dallas, TX; and the Hunter Holmes McGuire VA Medical Center in Richmond, VA. This research study is being paid for by the Rehabilitation Research and Development section of the Veterans Health Administration. The investigators will be enrolling about 450 participants at 3 sites or around 150 at each site.