View clinical trials related to Degenerative Disc Disease.
Filter by:An evaluation of the incidence of complications resulting from far lateral spine surgery utilizing the K2M RAVINE® Lateral Access System (RAVINE) with ALEUTIAN® Lateral Interbody Spacer System versus literature reported results for the NuVasive XLIF® system (XLIF) in the treatment of degenerative disc disease (DDD) with up to Grade 1 spondylolisthesis.
The purpose of this study is to evaluate fusion status and patient outcomes observed from use of the VESUVIUS Demineralized Fibers with the EVEREST Spinal System as compared to the literature reported outcomes of spinal fusion using autograft with posterior stabilization.
This is a clinical study to collect safety and preliminary efficiency information on the use of NuQu chondrocytes (cartilage cells) delivered to the center of a lumbar spinal disc to treat low back pain.
This is a post-marketing, on-label Efficacy, Effectiveness and Safety Study designed in a Multicenter, Randomized, Prospective format. This study compares two spinal fusion procedures, Transacral Interbody Fusion and Transforaminal Lumbar Interbody Fusion (TLIF). Enrollment period will be approximately 12-18 months; each Principal Investigator/Study Center will be expected to enroll up to 20 subjects. The protocol requires approximately 7 subject visits to the study center from screening through the final follow-up visit.
The purpose of this clinical trial is to evaluate the implant (rhBMP-2/ACS/allograft bone dowel) as a method of facilitating spinal fusion in patients with degenerative disc disease.
The purpose of this clinical trial is to assess the safety and effectiveness of the rhBMP-2/ACS/INTER FIX™ device as compared to the autograft/INTER FIX™ device in patients with symptomatic degenerative disease.
Spine fusion is one of the most common procedures performed in spinal surgery. Several surgical techniques can achieve a solid union, but the intertransverse posterolateral fusion (PLF) is the most widely used. However, complications can develop when the bone graft material used is insufficient to achieve the desired fusion. With its unique properties, nanOss Bioactive can be mixed with bone marrow aspirate (BMA) and other graft materials to obtain new bone growth during the healing process. It is hypothesized that the use of nanOss Bioactive will result in fusion at 12 months, with CT evidence of bridging trabecular bone, less than 3mm of translational motion, and less than 5 degrees of angular motion. In addition, patients are expected to see an improvement in Oswestry Disability Index scores, VAS pain scores, and SF36 scores, while decreasing the use of pain medication, returning to work, and finding satisfaction in the results of their surgery.
Degenerative disc disease (DDD) refers to a syndrome in which a degenerating disc causes chronic back pain, significantly impacting an individual's ability to function. The condition is most commonly diagnosed in the lumbosacral spinal segments L3-S1. The condition often starts with an injury to the disc space. The injury weakens the disc and creates excessive motion at the corresponding vertebral level. Over time, the segmental instability and associated neurological compromise combined with ongoing inflammatory processes that occur in and around the disc produce low back pain. The reparative processes in the disc are poor, thus the painful symptoms can become chronic. Premature degeneration at adjacent levels of the spine remains one of the more vexing problems facing spinal surgeons when advising relatively young people to consider lumbar fusion surgery. Stopping the motion changes the mechanics of the back (which is designed for motion and flexibility) and results in the transfer of the loads and stresses to the adjacent vertebral segments. It is therefore intuitive to pursue total disc replacement, which allows for the treatment of pain due to DDD while re-establishing motion and stability, load distribution, and restoring the disc height, as an alternative to spinal fusion surgery. The study hypothesis is that military personnel receiving Total Disc Replacement will return to the same level of active duty performance as at the time of their most recent successful physical readiness test.
The purpose of this investigation is to establish the safety and efficacy of the Biostat System when used for treatment of chronic low back (lumbar) pain due to symptomatic internal disc disruptions (IDD) by comparing safety and efficacy outcome measures between one group receiving BIOSTAT BIOLOGX® Fibrin Sealant through the Biostat® Delivery Device and another group receiving a preservative-free normal saline control delivered with the Biostat Delivery Device.
A multi-center, prospective, observational patient registry to collect information on the clinical outcomes and "real world" use of approved and commercially available bone graft substitutes, autograft and allograft.