View clinical trials related to Intervertebral Disc Displacement.
Filter by:Transforaminal epidural steroid injection (TFESI) has been increasingly preferred in patients who can not benefit from conservative approach in the treatment of lumbosacral radiculopathic pain due to lumbar disc herniation. The aim of our study is to evaluate the effect of metabolic syndrome on the treatment results of transforaminal epidural steroid injection in patients with chronic radicular low back pain due to lumbar disc herniation.
Lumbar radicular pain is defined as low back and leg pain caused by inflammation in the affected nerve root due to various etiological factors. In its treatment, there are various options such as anti-inflammatory drugs, physical therapy modalities, exercises, epidural steroid injections, and surgery. Epidural steroid injections have also become a frequently applied method in the treatment of lumbar radicular pain unresponsive to conservative treatments. The steroid applied here acts by suppressing the inflammation around the affected nerve root. Epidural steroid injections can be applied in lumbar radicular pain with 3 different approaches: caudal, interlaminar and transforaminal. In the transforaminal approach, a small amount of drug is injected into the epidural space, and in previous studies, reduction in pain and improvement in functionality were found in patients with lumbar radicular pain in the short and medium term. As far as we know, there is no previous study investigating the effect of fibromyalgia on TFESE treatment outcomes. For this reason, the aim of our study is to examine the effect of fibromyalgia on treatment outcomes in patients who underwent TFESE for lumbar radicular pain.
Opioid overuse is a widespread public health crisis in the United States with increasing rates of addiction and overdose deaths from prescription opioids. Reducing the need for opiate analgesics in the post-operative setting has become a high priority in minimizing long-term opioid use in surgical patients. This study will serve to demonstrate the efficacy of the addition of regional analgesic techniques in reducing post-operative opioid requirements in patients undergoing common lumbar spinal surgical procedures.
In this study we are investigating whether there is a relationship between the lordosis angle measured on cervical X-RAY images on the severity and level of cervical disc herniation detected by cervical MRI, demographic characteristics and the duration and posture of the person's daily life activities.
The study is a post-market surveillance study of the Lumbar Implant for Stiffness Augmentation (LISA), a medical device, which is used to treat low-back pain that accompanies degenerative lesions of grades II, III, and IV (Pfirrmann MRI classification). "Post-market" means the device (i.e. the LISA implant) being used in this study has already obtained CE certification and is commercially available for use in the European market. The LISA device consists of 3 components: A PEEK interspinous spacer, a polyester band, and a titanium blocker. The spacer is positioned between two adjacent spinous processes, the band is belted around the spinous processes and through the spacer, and the blocker is used to lock the band inside the spacer. Medical Device manufacturers conduct "post-market" clinical studies in order to continuously evaluate the product scientifically and to comply with legal and ethical obligations. With these studies, the long-term safety as well as performance of their medical devices are assessed. This study, which is initiated and sponsored by BACKBONE (LISA designer, developer, manufacturer and marketer), aims to evaluate the long-term safety and performance of the LISA implant for the treatment of lumbar degenerative disease and to evaluate the treatment.
To date, no consensus exists on which anterior surgical technique is more cost-effective to treat cervical degenerative disc disease (CDDD). The most commonly used surgical treatment for patients with single- or multilevel symptomatic CDDD is anterior cervical discectomy with fusion (ACDF). However, new complaints of radiculopathy and/or myelopathy commonly develop at adjacent levels, also known as clinical adjacent segment pathology (CASP). It remains unknown to what extent kinematics, surgery-induced fusion and natural history of disease play a role in its development. Anterior cervical discectomy with arthroplasty (ACDA) is thought to reduce the incidence of CASP by preserving motion in the operated segment. ACDA is often discouraged as the implant costs are higher whilst the clinical outcomes are similar to ACDF. However, preventing CASP might be a reason for ACDA to be a more cost-effective technique in the long-term. In this randomized controlled trial patients will be randomized to receive ACDF or ACDA in a 1:1 ratio. Adult patients with single- or multi-level CDDD and symptoms of radiculopathy and/or myelopathy will be included. The primary outcome is cost-effectiveness and cost-utility of both techniques from a societal perspective. Secondary objectives are the differences in clinical and radiological outcomes between the two techniques, as well as the qualitative process surrounding anterior decompression surgery. All outcomes will be measured at baseline and every 6 months till 4 years postoperatively. High quality evidence regarding the cost-effectiveness of both ACDA and ACDF is lacking, to date no prospective trials from a societal perspective exist. Considering the ageing of the population and the rising healthcare costs, the need for a solid clinical cost-effectiveness trial addressing this question is high.
Rationale: Treatment with transforaminal epidural injections is part of usual care in patients suffering from lumbar radiculopathy. However, not all patients experience a satisfactory result from this treatment and it is unclear what percentage of patients responds well and if any clinical or radiological factors exist that predict a positive response. Objectives: Primary: to develop a model based on demographic, clinical and radiological parameters for prediction of treatment success after TEI Secondary: to estimate the short-term efficacy of TEI in patients with LDH and spinal stenosis based on pain, functionality and perceived recovery scores, to determine the correlation between clinical and radiological baseline parameters and physical and psychological patient outcome measures, to determine the rate of additional injections and rate of surgery after treatment with TEI, to determine the short-term (cost)effectiveness of TEI on physical and psychological patient outcome measures, and to determine the rate of complications associated with TEI Study design: Prospective cohort study Study population: Patients that are scheduled for TEI as part of usual care suffering from a new episode of lumbar radiculopathy Main study parameters/endpoints: leg and back pain scores at baseline, 30 minutes, 2 and 6 weeks after treatment. ODI, HADS, Quality of Life and PCI at baseline, 2 and 6 weeks after treatment. Perceived recovery at 2 and 6 weeks after treatment. Usage of healthcare at baseline, 2 and 6 weeks after treatment.
Disc herniation is a common cause of low back pain and leg pain. Electromyography is the only test that can objectively examine nerve damage caused by a lumbar disc herniation. This study aimed to compare the MRI findings of disc herniation and the aspects of electromyography.
This is a prospective, single arm clinical study to evaluate fusion status and patient reported outcomes utilizing the Stryker Tritanium® C Anterior Cervical interbody device at one or two contiguous levels. Subjects that are recommended for surgical treatment of either a 1- or 2-level ACDF (Anterior Cervical Discectomy and Fusion) between the levels of Cervical Spine 2 to Thoracic 1 (C2-T1) and diagnosed with degenerative disc disease will be screened for the study.
The purpose of this study is to determine a grading system for inflammation in lumbar disc herniation and which groups, if any, benefit most from the administration of an intra-operative epidural steroid.