View clinical trials related to Degenerative Disc Disease.
Filter by:The purpose of this combination retrospective and prospective post market study is to examine the short term safety and efficacy of the ROI-A® interbody fusion device with VerteBRIDGE® plates to treat single and two-level degenerative disc disease between L2 and S1, with a focus on fusion rates and patient outcomes.
The intent of this clinical study is to answer the questions: 1) Is the proposed treatment safe and 2) Is treatment effective in improving the disease pathology of patients with diagnosed degenerative disc disease.
The primary objective of this study is to evaluate the safety and efficacy of CALIBER expandable spacer for the treatment of degenerative disc disease. Radiographic outcomes, intra-operative parameters, clinical outcomes, and patient satisfaction will be obtained from patients in this 2 year follow-up clinical study.
The purpose of this study is to evaluate the safety and efficacy of CarboFix' Pedicle Screw System in the lumbar spine.
nanOss Bioactive is approved for use in the U.S. The purpose of this study is to compare fusion results in the posterolateral spine using nanOss Bioactive mixed with autograft bone and bone marrow aspirate (BMA) on one side and autograft alone on the opposite side of the treated level(s). 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.
The purpose of this study is to collect clinical and radiological mid-term (2 years) data on the ArcadiusXP L® lumbar stand-alone cage in a post-market clinical follow-up study (PMCF) limited to 32 patients.
The purpose of this retrospective clinical evaluation is to compare VEO® single or multilevel results to XLIF® single or multilevel results relative to the safety endpoints. This study will collect retrospective data on subjects who were treated with VEO® and XLIF® at least 3 months prior to the initiation of this study. Given that fusion generally takes at least 6 months to determine, the aim of this study is not to determine fusion but to consider the short-term (out to 6 months) reported adverse events between the two cohorts. Devices used in both systems are cleared for use and conform to US regulatory requirements. The study employs these procedures and devices for uses that are consistent with their 510(k), legally cleared, labeling.
In this study we want to evaluate the clinical use of allogenic mesenchymal stem cells (MSC), obtained from bone marrow of healthy donors, for treatment of Degenerative Disc Disease (DDD). The trial is based in previous results with autologous MSC (Orozco et al., Transplantation 92: 822-828; 2011). Here we propose a phase I-II trial, prospective, randomized, blinded, and controlled for the treatment DDD using MSV, a Good Manufacturing Practice (GMP)-compliant expanded bone marrow MSC (MSV, Investigational medicinal product Num. 10-134). The assay consists of two arms with 12 patients each one. Patients in the experimental arm will be given a single intra-discal transplantation of MSV (25 millions in 2 ml). Control patients will be infiltrated in the paravertebral muscles close to the lesion with 2 ml of 1% mepivacain. We shall follow the evolution of pain, disability and quality of life as well as disc fluid content by Magnetic Resonance Imaging (T2-calibrated).
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 3D can be mixed with bone marrow aspirate (BMA) and autograft bone to obtain new bone growth during the healing process. nanOss Bioactive 3D is approved for use in the U.S., however, additional information is useful to assess its efficacy in the posterolateral spine. The purpose of this study is to assess fusion results in the posterolateral spine using nanOss Bioactive 3D mixed with autograft bone and BMA. It is hypothesized that the use of nanOss Bioactive 3D 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.
Prospective/Retrospective data analysis, chart reviews and clinical outcomes of minimally invasive spine surgery