Inserted, deployed and locked in a single pass. ENZA Technology features integrated anchoring plates engineered to enable maximum stability with minimum disruption.
Anchor Plate Technology
Inserted, Deployed and Locked in a Single Pass
ENZA Technology utilizes a unique anchoring system that consists of two, sharpened, anchor plates that translate from within the device in an angular superior and inferior direction to fixate the device securely to the adjacent vertebrae by providing immediate stability.
Self-contained deployable internal fixation
Enhances axial stability of adjacent vertebra
Subsidence resistant surface geometry
Endplate penetration promotes bone bleeding into graft
Minimal tissue disruption
Surface By Design®
Surface engineered to provide conductive scaffold for cellular adhesion and migration
Osteopromotive surface*
Optimal interface contributing to the promotion of cell differentiation and proliferation
Ideally engineered conductive surface enhancing cellular activity
Data is derived from study using human mesenchymal stem cells. Please note in vitro testing may not be representative of clinical experience. Paschal G, Paschal P, Avrumova F, Goldman S, Sokunbi G, Lebl D, Cammisa F, Abjornson C. Optimization Analysis of 3D Printed Titanium Surfaces for Mesenchymal Stem Cells. e-Presentation. Society for Minimally Invasive Spine Surgery. (SMISS) 2022 Annual Meeting, Las Vegas, NV. September 2022.
Scanning Electron Microscopy Imaging of hMSC attachment after a 7-day culture
Titanium ALIF
