View clinical trials related to Back Pain.
Filter by:Study will be a Randomized clinical trial to check the effects of ELDOA technique versus lumbar SNAGS with motor control exercises on pain, function and mobility in patients with chronic low back pain. Duration of study will be 8 months, non probability convenience sampling technique will be used, subject following eligibility criteria from District Headquarters Hospital Okara will be randomly allocated in two groups using computer random number generator. baseline assessment will be done. Group A participants will be given baseline treatment along with ELDOA exercises, Group B participants will be given baseline treatment along with Lumbar SNAGS and motor control exercises for 3 weeks. Assessment will be done by using Numeric Pain Rating Scale, Oswestry Disability Index and Inclinometer at baseline, at 3 weeks and a follow up will be taken at 6 weeks. 3 sessions per week will be given, data will be analyzed by using SPSS version 21.
The purpose of the project is to investigate if the use of virtual reality (VR) technology with pre-programmed proprietary software can provide better treatment for patients with long-term pain conditions. This is investigated in this pilot study conducted on patients referred to outpatient treatment at the Division of Physical Medicine and Rehabilitation. The pilot study will lay the foundation for a follow-up study (RCT). The effect of VR are evaluated by patient reporting forms; before start-up and 3 months after startup. Patients included in the study receive standard treatment supplemented with the use of VR technology. The therapists involved will be Interviewed to examine their experiences with the use of the VR-technology in the treatment of patients. VR technology can potentially contribute to better treatment (e.g. measured in outcomes such as activity, sleep problems, pain intensity, quality of life). Moreover we expect that a VR-assisted treatment to be more cost-effective and increased availability regardless of geography and demography.
Chronic musculoskeletal pain (CP) is a major public health concern. Psychosocial treatments have been shown to be efficacious when compared to largely inert control conditions, but they are characterized by modest effects on primary outcomes. One strategy to boost efficacy is to increase our understanding of treatment mediators. Studies of mediators that directly compare different treatments with each other are needed to determine which mediators are treatment-specific, which are shared across treatments, and which contribute the most to clinical outcomes. Another strategy is to identify the patient characteristics that moderate treatment responses. Research is needed that is guided by theoretical models and that tests moderators across multiple treatments. Identifying subgroups of patients more likely to respond to one or another treatment can advance precision medicine by informing a priori patient-treatment matches that can optimize treatment effects. To accomplish these goals, the authors will conduct a randomized clinical trial to compare the mediators and moderators of the clinical effects of Cognitive-Behavioral Therapy (CBT), Acceptance and Commitment Therapy (ACT), and Emotional Awareness and Expression Therapy (EAET) on adults with chronic spinal (axial) pain. Following baseline assessment of outcome variables as well as potential mediators and moderators, 460 participants will be randomized to CBT, ACT, EAET, or treatment-as-usual control (TAU). The three treatments will be conducted as individual therapy provided weekly for 8 weeks via telehealth. The researchers will conduct weekly assessments of both potential mediators and outcomes, as well as post-treatment and 6-month follow-up assessments. The goal of the study is to identify the most powerful treatment mechanisms - specific and shared -- and reveal for whom the mediator-outcome pathways are strongest.This project can increase the effects of our psychosocial chronic pain treatments by identifying the most effective treatment mechanisms and by informing patient-treatment matches that can optimize treatment effects.
The reversibility of LBP proprioceptive mechanism effects may give an insight into a treatment approach for postural stability. To our knowledge, no studies have better investigated the effect of Core Stabilization Exercises using VR on ankle and trunk proprioception in patients with CLBP and in turn on postural stability.
The purpose of this prospective, multi-center, randomized, triple-blind, sham-controlled study with parallel economic evaluation is to test the analgesic superiority of BurstDR-SCS compared to sham stimulation using both traditional patient-reported pain outcome measures and objective physiologic data collected from patient-worn biosensors. The endpoints associated with these objectives will be studied across a follow-up period of 6 months.
Objectives: To develop an exercise program for older adults with low back pain. And,to develop a clinical prediction rule that could identify a subgroup of people with NSLBP Participants: 150 people aged between 40 to 80 with non-specific low back pain (NSLBP) for more than 6 months and is able to ambulate independently will be invited to join the study. People who had 1) previous spinal surgery; 2) LBP attributable to current pregnancy; 3) acute fracture, recent fall, tumour, or bone infection; and 4) experience of practising core-stability exercises in the past 6 months will be excluded. Study details will be explained to participants and written consent will be obtained prior the study. 75 participants will be randomized into the intervention group. Another 75 participants will be randomized into the waiting list control group. Assessment Participants will undergo two comprehensive assessments before and after the training, which includes: Surface electromyogram (EMG) on the lumbar spine and abdominal muscle, Inertial measurement unit (IMU) sensor for trunk movement, clinical assessment including. Prone instability test. Subjective assessments: Visual analogue scale score for pain, The Oswestry Low Back Pain Disability Questionnaire and Roland-Morris Disability Questionnaire. Intervention - 16 session structured exercise program All participants will undergo a 16 session exercise program for 2 months. Each session will last for 60minutes. The exercise program will be arranged in a group format with class size ranging from 6 - 8 per class Subjects will be divided into experimental and control groups. Participants in the control group will not receive exercise training at first but were evaluated at the same time as participants in the experimental group. The participant in the control group completed the exercise training after the post-assessment.
Three-arm randomized controlled trial, of Motivational Interviewing and guided Opioid Tapering support (MI-Opioid Taper) and tizanidine vs. MI-Opioid Taper and placebo vs. enhanced usual care to promote postoperative opioid cessation and pain cessation and reduce the incidence of postoperative opioid misuse among patients undergoing spine surgery.
Chronic low back pain (CLBP) is a pervasive disorder affecting up to one-fifth of adults globally and is the single greatest cause of disability worldwide. Despite the high prevalence and detrimental impact of CLBP, its treatments and mechanisms remain largely unclear. Biomarkers that predict symptom progression in CLBP support precision-based treatments and ultimately aid in reducing suffering. Longitudinal brain-based resting-state neuroimaging of patients with CLBP has revealed neural networks that predict pain chronification and its symptom progression. Although early findings suggest that measurements of brain networks can lead to the development of prognostic biomarkers, the predictive ability of these models is strongest for short-term follow-up. Measurements of different neural systems may provide additional benefits with better predictive power. Emotional and cognitive dysfunction is common in CLBP, occurring at the behavioral and cerebral level, presenting a unique opportunity to detect prognostic brain-based biomarkers. Likewise, improvements in electroencephalogram (EEG) neuroimaging strategies have led to increased spatial resolution, enabling researchers to overcome the limitations of classically used neuroimaging modalities (e.g., magnetic resonance imaging [MRI] and functional MRI), such as high cost and limited accessibility. Using longitudinal EEG, this patient-oriented research project will provide a comprehensive neural picture of emotional, cognitive, and resting-state networks in patients with CLBP, which will aid in predicting symptom progression in CLBP. Through this award, the investigators will use modern EEG source analysis strategies to track biomarkers at baseline and 3- and 6-month follow-ups and their covariance with markers for pain and emotional and cognitive dysfunction. In Aim 1, the investigators will identify and characterize differences in resting-state, emotional, and cognitive networks between patients with CLPB and age/sex-matched controls. In Aim 2, the investigators will identify within-subject changes across time and their relationship with clinical symptoms. In Aim 3, as an exploratory aim, the investigators will apply machine- and deep-learning strategies to detect a comprehensive signature of CLBP using EEG features from resting-state, emotional, and cognitive networks.
This is a behavioral observational study aimed at understanding the limit of tolerance (in days) of ideally performing a Magnetic Resonance Imaging (MRI) by people with acute low back pain. It consists of a short self-administered questionnaire. Relationships between low back pain intensity, maladaptive thoughts and awaited days before ideally requesting a MRI will be evaluated.
Degenerative (de novo) scoliosis is the result of a long and multifactorial process that occurs through degenerative change in the aging population without a pre-existing spinal deformity. Pain is the most important symptom and the major difference from adolescent idiopathic scoliosis. Treatment is often complex and patient-specific. The first aim of our study is to evaluate the effectiveness of physical therapy on pain, disability and quality of life in patients with degenerative lumbar scoliosis and the second aim is to investigate whether erector spina plan block (ESPB) combined with physical therapy has an effect on the results.