View clinical trials related to Spinal Fusion.
Filter by:This study is a randomized controlled non-inferiority trial designed to evaluate the impact of implementing the 'Early Recovery After Surgery Clinical Pathway (ERAS CP)' on patient-reported pain levels at the time of discharge following Oblique Lumbar Interbody Fusion (OLIF) surgery
Bone marrow aspirate (BMA) in association to graft substitutes has long been introduced as a promising alternative to iliac crest bone graft in spinal fusion. However, BMA use is limited by the absence of a standardized technique, of a physical texture and by the possibility of dispersion away from the implant site. Recently, the potential use of a new formulation of BMA, named BMA clot, has been preclinically described. A prospective pilot clinical study designed to assessing the safety and efficacy of autologous vertebral BMA (vBMA) clot as multifunctional bio-scaffold in instrumental posterior lumbar fusion will be performed.
rhBMP-2 has been used to promote spinal fusion. Despite potential risk of complications, satisfied results could be obtained with low dose of rhBMP-2. Effect of early bone formation has been validated using rat ovariectomy osteoporosis model. However, whether it functioned in patients with osteoporosis remained unknown. In this study, the investigators intend to investigate whether rhBMP-2 promotes early bone formation in patients with osteoporosis after transforaminal lumbar interbody fusion (TLIF).
The primary aim is to evaluate the analgesic efficacy of either technique by measuring cumulative morphine consumption in the first 24 hours after an erector spinae plane block with 2 ml/kg of ropivacaine 0.1% (2 ml/kg) or 1 ml/kg of ropivacaine 0.2%. The secondary aim of this study is to describe the pharmacokinetics of ropivacaine 0.1% and ropivacaine 0.2% after erector spinae block in children undergoing posterior spinal fusion.
Elective spine surgery is associated with a high incidence of perioperative complications, including peri- and postoperative pulmonary complications (PPCs), which occur in nearly 4% of patients. More than 40% of all deaths after elective spine surgery are attributed to PPCs. However, whether it influences risk of other PPCs is unclear.
PAULA aims to collect data on the safety, performance, and effectiveness of iFuse Bedrock Granite (GRANITE) in patients who have spinal fusion surgery with pelvic fixation/ fusion.
The objective of this single site, randomized controlled trial is to assess and compare radiographic and clinical outcomes in patients who are to undergo lumbar interbody fusion procedures (TLIF), supplemented with pedicle screw instrumentation, using one of the following interventions: 1. Porous titanium cages 2. Non-porous titanium-coated poly-ether-ether-ketone (PEEK) cages.
Instrumented lumbar fusion surgery is often accompanied by interbody fusion using an autologous bone graft that is supposed to expand and remodel to achieve a rigid and lasting bony construction between two vertebrae. However, there is a dearth of knowledge regarding the process of biological remodelling of intercorporal bone grafts. Also, a valid and reliable assessment of fusion status remains challenging because there is no objective tool available to quantify the bone remodelling process. CT-based Hounsfield Units correlate with Bone Mineral Density and can be used as a proxy to establish trajectories over time to assess changes in bone mineral density from the bone graft.
Low back pain affects people of all ages and has become the leading cause of living with disability worldwide. Patients, suffering from persistent pain after spinal surgery in the absence of any clear spinal pathology are defined of having a "failed back surgery syndrome (FBSS)" and treatment of FBSS remains a great controversy in the spinal community. Apart from conservative treatment, spinal fusion remains as therapeutic option. Furthermore, minimal invasive Neuromodulation techniques might be a promising alternative. Aim of this randomized interventional multi center study is to compare treatment success in FBSS patients with either spinal cord stimulation (SCS) or fusion surgery, 12 months after intervention according to the Oswestry Disability Index (ODI) and other scales and scores. Radiological and health economic outcome also will be analysed for thorough comparison of techniques. Additionally, the safety of the interventions needs to be compared.
This initial study is a feasibility study for implementing thoracolumbar interfascial plane, or TLIP, blocks in older adults undergoing spinal fusion. TLIP blocks are done by using anesthesia. In this case, it will be done to either side of the back where surgery will be performed. This has been shown to decrease pain the patients have post-operatively in previous research. In this study, the investigators will examine recruitment rates, completion of assessments, dropout rate, gather patient feedback, and identify barriers to performing TLIP. Further, this feasibility study will provide data to determine adequate sample size and refine methods and outcomes for a future randomized clinical trial. The ultimate goal is to perform a large, appropriately powered randomized control trial to determine the effect of TLIP blocks on pain, physical function and disability, opioid consumption, and delirium in older adult undergoing spinal fusion.