The Rampart™ One Interbody Fusion System is designed to minimize exposure and retraction and potentially enhance bone growth without hampering post-operative visualization.
To facilitate minimizing exposure and retraction requirements, special instrument designs that enable access colinear with the disc, medialized divergent screw trajectories, and a unique oblique implant option were all developed for the system. Additionally, to enhance healing and visualization the Rampart One implants are constructed of PEEK-OPTIMA® HA Enhanced polymer from Invibio®. This new material has the potential to enhance bone growth and bony device apposition without sacrificing the radiolucency surgeons have come to depend on for post-operative follow-up imaging.
Benefits:
Minimal Exposure
Medialized screw starting locations, divergent trajectories, and unique variable angle instruments facilitate colinear access to the spine and minimizes exposure requirements.
Minimal Retraction
Medialized screw starting locations, divergent trajectories, and unique variable angle instruments minimize vascular retraction requirements. Additionally, Rampart One includes a unique oblique footprint to facilitate Implant placement in even the most challenging clinical scenarios when vessel retraction is severely limited.
Maximum Safety
Integrated Guide system allows safe delivery of the Implant into the disc space, screw hole preparation and Fixation Screw delivery all while preventing vessel encroachment to maximize safety.HA Infused Rampart One is constructed of Invibio® PEEK-OPTIMA® HA Enhanced. This next generation material integrates hydroxyapatite throughout the PEEK rather than being applied just as a coating, making it durable and available to the body on all surfaces to potentially enhance bony growth and apposition. In addition, Rampart One has a large graft window to maximize graft contact area and endplate-to-endplate healing potential and device through-growth.
About ALIF Cages
Anterior lumbar interbody fusion (ALIF) is a spine surgery that involves approaching the spine from the front of the body to remove disc or bone material from in between two adjacent lumbar vertebrae. The disc material is then replaced by cage containing bone graft or bone morphogenetic protein.The ALIF cage maintains normal disc height as the bone graft fuses with the bone of the vertebrae above and below to stabilize the spine.
About Spineology
Spineology (St Paul, MN) was founded in 1996 by Dr. Stephen Kuslich. Spineology, the innovator in anatomy-conserving™ spine surgery, develops surgical techniques, instruments and implants that conserve spinal bone, nerve and muscle tissues. Spineology is committed to increasing procedural efficiency, reducing surgical morbidity and accelerating patient recovery. Learn more at spineology.com