View clinical trials related to Intervertebral Disc Displacement.
Filter by:The goal of this clinical trial is to demonstrate the efficacy of percutaneous intradiscal radiofrequency as a treatment for radicular pain from lumbar disc herniation. The main question it aims to answer is: • Can percutaneous intradiscal radiofrequency lower the severity of radicular pain from lumbar disc herniation Participants will be treated with percutaneous intradiscal radiofrequency and evaluated for radicular pain severity before and 3 months after the procedure. There is no comparison group.
The study aims to study the effect of intraoperative epidural application of anesthetic cocktail following endoscopic lumbar discectomy in improving postoperative pain, length of hospital stay, time at first dose analgesia, post-operative opioid consumption, functional outcomes, time return to work, and postoperative complications
This study is a First in Human, prospective, multi-center clinical study intended to collect safety and performance information for the Spinal Stabilization Technologies PerQdisc® Nucleus Replacement System and procedure concurrently following a successful discectomy using a minimally invasive posterolateral (MIPL) approach. Patients that are at least 21 years or older, presenting with symptomatic radiculopathy from a focal lumbar disc herniation that requires surgical decompression will be included in this study.
This study will comprehensively evaluate the outcomes and endpoints of these two different FDA-approved artificial disc implants used to treat cervical spondylotic myelopathy and/or radiculopathy today: Biomet Zimmer Mobi-C and Nuvasive Simplify. Both implants are structurally different with the Nuvasive Simplify implementing a three-piece design with two endplates and a semi-constrained mobile core while the Biomet Zimmer Mobi-C implements an unconstrained three piece design. Subjects will be age-matched and randomly assigned to either implant with informed consent. All subjects will undergo a variety of assessments that evaluate neck disability, quality of life, pain, physiological outcome (radiographic assessments), and neck range-of motion before and after their procedure. One baseline testing will be conducted along with three post-operation visits (three months, six months, and one year) in accordance to standard follow-up procedure. Thus, the duration of participation in the study will be approximately one and a half years.
Today, the increase in the cost of health services, the development of technology and the shortening of the hospitalization period day by day due to the reasons for preventing complications such as hospital infections have increased the importance of discharge planning. Optimum maintenance of home care of patients who underwent surgery after discharge is possible with an effective discharge education given to the patient and their relatives and the preparation of the patients. In this study, it was aimed to examine the effect of the discharge training given to the patients who underwent Lumbar Disc Herniation Surgery with the method of feedback on their readiness for discharge and their satisfaction with the discharge training. Among the patient groups who were given and not trained by the teach-back method; H01. There is no difference between the scores of readiness for discharge. H02. There is no difference between discharge training satisfaction scores. H11: There is a difference between the scores of being ready for discharge. H12: There is a difference between discharge training satisfaction scores.
Lumbar disc herniation (LDH) is the most frequent cause of lumbosacral radiculopathy and account for 39% of chronic low back pain cases. In approximately 95% of cases LDH occurs at L4-L5 and L5-S1 levels. Maintaining functional stability of lumbar spine necessitates strengthening of the core muscles that plays a key role in lumbar strengthening, motor control and core stability. Core stability may play a role in passive disc stability, reducing the pressure on disc, relieving nerve impingement and radiating pain. Neural mobilization technique involves manual mobilization or exercise that promotes movement between and around the neural structures.This study is intended to add to the existing literature regarding patients with lumbar radiculopathy due to disc herniation, and to report the effectiveness of core stabilization exercises with and without neural mobilization technique in respective population in reduction of associated symptoms, pain and functional disability, enhancing the quality of life, and restoring a prior functional status and activity potential.
Facet joints are synovial joints located on the dorsolateral side of the vertebral column. Normally, both facet joints are symmetrical. Facet tropism (FT) is defined as asymmetry between the angles of orientation of the joints, in which a facet joint in the same segment is more sagittally oriented than the other. In 1967, Farfan and Sullivan first reported that FT is a possible risk factor for the development of disk herniation. However, this is controversial as there are other views advocating that FT is not a risk factor for the development of cervical disc herniation. Further, it has been emphasized that patients with FT have a greater need for adjacent segment degeneration and new spinal surgery after spinal fusion surgeries than those without FT. In the current literature, studies have been conducted to examine the clinical and radiological parameters that may be related to the effectiveness of cervical interlaminar epidural steroid injections (ILESI). The aim of this study was to examine the effect of the presence of FT on ILESI results in patients with cervical disc herniation-induced radicular pain.
The most common cause of lumbar radicular pain is intervertebral disc herniation with or without pressure on the nerve root, which leads to inflammation and pain. Just as the mechanical component is important, so is the inflammatory component in the etiology of lumbar radicular pain. Numerous pro-inflammatory and anti-inflammatory proteins were found in serum, cerebrospinal fluid and disc biopsies from patients with lumbar radicular pain. Interleukin(IL)-1β, IL-6, IL-8, and tumor necrosis factor TNF-α are the most frequently investigated (8, 9). Elevated levels of IL-6 and TNF-α were found in patients with lumbar pain caused by intervertebral disc herniation. In order to avoid systemic and unwanted effects of analgesics, undergoing anesthesia and long-term and extensive operations, minimally invasive procedures are increasingly used in the treatment of lumbar radicular pain. Epidural administration of steroids and local anesthetic through a transforaminal approach (ESI TF) and percutaneous laser disc decompression (PLDD) are some of these methods. Lumbar radicular pain occurs due to inflammation and/or disc-radicular contact. Corticosteroids interrupt the inflammatory process, the transmission of pain signals via nociceptive C fibers and reduce capillary permeability. Along with the corticosteroid, a local anesthetic is also applied, which leads to immediate analgesia by blocking the conduction of painful impulses by blocking sodium channels. Percutaneous laser disc decompression (PLDD) is a minimally invasive method of treating lumbar radicular pain performed under local anesthesia under fluoroscopic control. The laser energy leads to the heating of the tissue of the nucleus pulposus, which leads to the evaporation of a small volume of water inside the disc. Viewing the disc as a closed hydraulic system, a small decrease in the water content within the disc leads to a disproportionate decrease in intradiscal pressure, which results in retraction of the herniated disc. Thermal energy leads to protein denaturation, which causes structural changes and thus prevents further retention of water in the disc, and a stable scar is created at the point of laser action. On the basis of current knowledge, an attempt is made to establish a link between inflammatory parameters as predictive and prognostic biomarkers in the treatment of patients with lumbar radicular pain caused by intervertebral disc herniation.
to investigate the effect of electromagnetic field therapy on sciatica and postural control in lumbar disc prolapse patients BACKGROUND: lumbar disc prolapse is a clinical condition resulting from compression of lumbar nerve roots resulting in decreased postural control and alleviating sciatic pain Pulsed electromagnetic field (PEMF) therapy is an easy, non-invasive, safe, and relatively new treatment method that is used with growing interest in physical and rehabilitation medicine. Historically, the benefits from magnetotherapy have been reported for patients with musculoskeletal and neurological disorders
In this clinical trial, equivalence is evaluated by exploratory comparison of changes in X-Ray lesions with test group (Cerazem Master V6) and control group (physical therapy) in patients with intervertebral disc herniation and degenerative stenosis.