63 Clinical Trials for Various Conditions
This is a prospective, multi-center controlled observational clinical study. All subjects will receive Titan Endoskeleton TT/TO acid etched titanium implant for the planned procedure. Each site will have a predetermined bonegraft extender to be used in all enrolled subjects at that site.
The primary objective of this prospective, post-market study is to collect data to assess the long term outcome of a broad contact modular interbody device in the form of the InterFuse S™ or InterFuse T™ device in patients undergoing long construct fusion for degenerative disc disease and/or scoliosis. Comparisons will be made with published historical data..
The objective of this study is to perform a prospective, randomized, controlled clinical trial to compare radiographic fusion rates and patient reported outcomes, including pain and function preoperatively and postoperatively, using Depuy ViviGen® Cellular Bone Matrix mixed with cortical/cancellous allograft in conjunction with an approved Depuy Synthes pedicle screw system compared to autograft mixed with cortical/cancellous allograft in conjunction with the same DePuy Synthes pedicle screw system used for a one or two - level posterolateral lumbar fusion.
The purpose of this study is to compare the effect and safety of NuCel to DBX on patients undergoing posteriolateral lumbar spinal fusions for degenerative disc disease.
This is a pilot study to evaulate the safety and prelimary effectiveness of Prefix as compared to autogenous bone for spinal fusion procedures in skeletally mature subjects with degenerative disc disease (DDD) at one level from L2-S1.
The purpose of this open, multi-center study is to prospectively collect outcome data on patients who are having lumbar spinal fusion surgery with implantation of the SpineLink® system.
The aim of this study is to evaluate the effectiveness and safety of Natural Matrix Protein™ (NMP™) fibers when used in cervical or lumbar interbody fusion in patients with degenerative disc disease (DDD), spinal stenosis, spondylolisthesis undergoing cervical or lumbar interbody spine fusion at no more than 3 adjacent levels.
The primary objective of this study is to evaluate the safety and performance of the Modulus ALIF System in patients undergoing anterior lumbar interbody fusion (ALIF) as measured by reported complications, radiographic outcomes, and patient-reported outcomes.
This is a prospective, multi-center study of subjects who will undergo spinal fusion surgery utilizing Stryker Interbody Systems that require post market clinical follow up (PMCF). The primary study hypothesis for each system is that the mean change in NDI (cervical) or ODI (lumbar) from baseline to Month 12 \< -10, that is, the mean improvement exceeds 10 points. In supporting analysis, the same hypotheses will be tested for mean change from baseline to 24 months to demonstrate durability of effectiveness.
The primary objective of this study is to evaluate the safety and performance of the NuVasive XLIF Decade Plate System as measured by patient-reported outcomes (PROs), radiographic outcomes, and reported complications.
The objectives of this longitudinal study are to assess and measure fusion status (fused or not fused) and rate of bony fusion using NanoBone® Synthetic Bone Graft in patients requiring one to two level lumbar posterolateral fusion procedures with or without commercially available rigid spinal instrumentation. Our hypothesis is that the Nanobone synthetic bone graft will be as effective at creating a fusion in the lumbar spine as compared with a local bone graft. Each subject will serve as their own control during this study, as patients will receive the Nanobone graft on the right side of their spine and the local bone graft on their left side.
The aim of this observational post-marketing study is to provide additional information on the safety and effectiveness of Idys™ TLIF 3DTi at up to 24 months post transforaminal lumbar fusion in usual surgical practice.
A prospective, randomized, controlled clinical evaluation utilizing the SPIRA™ ALIF 3-D printed titanium interbody device with DBM vs a Medtronic PEEK ALIF interbody device with BMP
The objective of this study is to evaluate the safety and performance of thoracic and/or lumbar spine surgery using the MLX and XLX ACR interbody implants as measured by reported complications, radiographic outcomes, and clinical patient outcomes. This study is being undertaken to identify possible residual risks and to clarify mid- to long-term clinical performance that may affect the benefit/risk ratios of the MLX and XLX ACR interbody implants.
The objective of this study is to evaluate the safety and performance of NuVasive interbody implants when used during thoracic and/or lumbar spine surgery as measured by reported complications, radiographic outcomes, and patient-reported outcomes. This study is being undertaken to identify possible residual risks and to clarify mid- to long-term clinical performance that may affect the benefit/risk ratios of these interbody implants.
The primary objective of this study is to evaluate the safety and performance of the Modulus 3D-printed titanium interbody implant in patients undergoing thoracic and/or lumbar XLIF as measured by reported complications, radiographic outcomes, and patient-reported outcomes.
The purpose of this trial is to collect clinical outcomes including radiographic and CT outcomes in patients who undergo spinal fusion using the Keos Lumbar Interbody Fusion Device.
Ankasa Regenerative Therapeutics, Inc. (Ankasa) is developing ART352-L, a liposomal formulation of recombinant human Wnt3A protein, that is applied ex vivo, to harvested autologous bone grafts (autograft) to enhance the osteogenic properties of the autograft prior to reimplantation in orthopedic surgeries. This is a phase 1/2 open label safety evaluation of ART352-L treated autologous bone grafts in patients undergoing posterolateral lumbar spinal fusion to treat single level degenerative spondylolisthesis. The primary objective of the study is to evaluate the safety and tolerability of ART352-L treated local bone autografts in patients being treated for this condition, with the secondary objective to evaluate the rates of early and overall spinal fusion. Additionally, changes in patient mobility and quality of life measures from baseline following treatment with ART352-L will be evaluated.
The purpose of this study is to assess the course of hip weakness after LLIF or ALIF procedures. These outcomes include measures of hip strength using a dynamometer, which is a device used to measure muscle strength. While it is known that people experience temporary hip and leg weakness after an LLIF or ALIF, the exact timing of when hip and leg strength is regained after an LLIF or ALIF is not known.
This is a prospective, single-arm post market study of patients to assess fusion in one or multiple continuous levels of the lumbosacral spine (L1-S1) using ViviGen Cellular Bone Matrix. All subjects will be followed out to 24 months for final assessment.
The purpose of this trial is to collect clinical outcomes including radiographic and CT outcomes in patients who undergo interbody spinal fusion using the EVOS Lumbar Interbody System.
A single center study of clinical and radiological outcomes in a retrospective cohort of patients treated with Lumbar Interbody Fusion augmented with Prosidyan Fibergraft for 1 or 2 level degenerative spinal disease by a single surgeon. Study Design: Retrospective chart review with prospective data collection.
This is a prospective, non-randomized (single arm), multi-center, post-market clinical study designed to evaluate FIBERGRAFT® BG Matrix mixed with autograft and bone marrow aspirate in up to 150 subjects with degenerative disc disease (DDD) with or without radiculopathy, or spinal stenosis and/or spondylolisthesis requiring a fusion. The patient population will include adult (skeletally mature) men and women undergoing 1 or 2 level fusion in the lumbar spine (L2-S1) who are deemed eligible for the study, characterized by inclusion and exclusion criteria.
This study is undertaken to evaluate the outcomes of Oblique Lateral Lumbar Interbody Fusion (OLLIF). Specifically, the study seeks to measure outcomes on radiological imaging, outcomes reported by the patients on standardized questionnaires, and complication rates.
This study is being conducted to evaluate the clinical and radiographic outcomes of three different interbody implant types when used with cancellous allograft chips with BMA or cellular allograft in patients undergoing XLIF surgery. The study will evaluate success by comparing the rate of fusion, complications profile, and any relationships between clinical outcomes (pain and function) and radiographic outcomes (fusion rate) between the three implant groups.
The purpose of this randomized controlled trial is to assess and compare radiographic and clinical outcomes in patients who are to undergo combined interbody/posterolateral lumbar fusion procedures, supplemented with pedicle screw instrumentation, using one of the following interbody cages; the Nexxt Spine Nexxt MatrixxTM 3D-printed titanium cage or the HonourTM poly-ether-ether-ketone cage.
The purpose of this study is to examine the efficacy of using Solum IV and bone marrow concentrate with general fluid concentrate in Transforaminal Lumbar Interbody Fusion (TLIF).
The goal of this study is to investigate the efficacy of BIO4 bone matrix in patients undergoing 1 or 2-level Anterior Cervical Discectomy and Fusion (ACDF) spine surgery. Specifically, the study aims to collect the data for ACDF model utilizing BIO4 with Bio AVS Cervical Allograft (with graft window).
A multicenter patient registry was created with aim of documenting how spine and neurosurgeons are utilizing Burst Biologics products along with patient outcomes. These include radiographic measures such as fusion outcome, instrumentation integrity, and clinical outcomes (symptom and function improvement) based on surgeon and patient based outcome assessments.
The study is a prospective non-randomized multi-center feasibility clinical trial to establish the safety and efficacy of the Nucel® allograft tissue for use in lumbar interbody fusion procedures.