View clinical trials related to Degenerative Disc Disease.
Filter by:The purpose of this pilot clinical trial is to evaluate the device design as a method of facilitating spinal fusion.
This study is designed to assess the safety and effectiveness of the rhBMP-2/ACS/LT-CAGE® Device using laparoscopic surgical technique as compared to an historical control group treated with Autogenous Bone/LT-CAGE® Device using an open surgical technique in patients with symptomatic degenerative disc disease.
This study is designed to assess the safety and effectiveness of the rhBMP-2/ACS/LT-CAGE® device as compared to the LT-CAGE® device with autogenous bone in patients with symptomatic degenerative disc disease using an open surgical technique.
Lumbar spinal stenosis (LSS), is a common disorder of narrowing of the spinal canal in the lower part of the back. This causes discomfort in the legs when standing or walking because of pressure on the spinal nerves.There are several treatment options for LSS including physiotherapy, lumbar surgical decompression procedures such as laminectomy, Foraminotomy, Discectomy and more recently devices for interspinous distraction such as the XSTOP® and from May 2011 Minuteman™. Surgical decompression for LSS involves the removal of excess bone, ligament, and soft-tissue allowing more room for the nerves. The operation is usually preformed under general anaesthetic and with an average stay in hospital for 2-3 nights. Whereas the Minuteman™ implant is preformed as a day case under local or general anaesthetic and involves implanting the device into the space between two back bones to relieve pressure on the nerves and, therefore, pain in the legs. This is a multi centred (four sites) randomised controlled trial with a total sample of 50 participants after obtaining their informed consent. Participants will attend the pain clinic at the Hospitals for a baseline visit where they will be randomised with a ratio of 1:1 to receive either the Minuteman™ Interspinous interlaminar fusion Implant or standard surgical decompression for the treatment of lumbar spinal stenosis (LSS). Following randomisation arrangements will be made for the participant to receive the randomised treatment. If allocated to Minuteman™ Implant, the treatment will be conducted by the Pain Specialist identified at the site. If allocated to surgical decompression, the treatment will be conducted by the neuro/spinal-surgeon identified at the site. Participates will be followed up regularly for 60 months post implant to assess clinical efficacy, safety, participants function and quality of life of each treatment.
The primary purpose of the study is to establish the degree and duration of pain relief following minimally invasive surgery for a painful degenerative disc.
Purpose The primary purpose of this study is to prospectively compare clinical and radiographic clinical outcomes in patients undergoing cervical or lumbar interbody fusions and randomized to receive either polyetheretherketone (PEEK) or cortical allografts.
The primary purpose of the study is to document the reduction of disability after Maverick total disc replacement surgery in a 'real-world' patient population requiring disc replacement.
The purpose of this study is to compare two doses of immunoselected, culture-expanded, nucleated, allogeneic adult MPCs when combined with hyaluronic acid to two control intradiscal injections in subjects with chronic low back pain due to moderate Degenerative Disc Disease (DDD) at one lumbar level from L1 to S1. All investigational subjects in this study will undergo injection of either 6 million (M) or 18M cells in a hyaluronic acid carrier into the degenerated lumbar disc's nucleus pulposus. All control subjects will undergo an intradiscal control injection with either saline or hyaluronic acid only
Study to show the safety and tolerability of Intradiscal rhGDF-5 in subjects with early lumbar disc degeneration
Patients diagnosed with single-level degenerative disc disease (DDD) of the lumbar spine undergo a posterior decompression followed by a fusion complete with a spinous process plate, graft, and a biologic.