Spine

SPINEART LAUNCHES NEW TI-LIFE TECHNOLOGY 3D TITANIUM INTERBODY DEVICES

13 JULY 2016

Spineart is pleased to announce that it has received CE marking for its new JULIET®Ti lumbar interbody systems.

The JULIET®Ti PO, OL and TL interbody systems are the first range of Titanium interbody implants benefiting from our proprietary Ti-LIFETechnology1.

Ti-LIFETechnology micro-porous scaffold mimics the bone trabecular structure and features interconnected pores of 600 μm to 700 μm and an overall porosity of 70-75% designed to enable cell colonization and promote bone in-growth2.

This technology is based on a unique algorithm associated with a state-of-the-art additive manufacturing process.

The JULIET®Ti PO, OL and TL interbody systems include a full range of sizes to address different anatomies. The smooth bullet-shaped nose, lateral sides and chamfers of the implant are polished to preserve endplates, nerve roots and soft tissues during insertion.

The JULIET®Ti design features an overall reduced density to optimize the imaging performances.

In accordance with the Spineart philosophy, the instrument set is ultra-compact and features multi-functional instruments.

All Spineart implants, including the entire JULIET®Ti range, are sterile packed and barcoded for increased safety, procedure compliance and cost-efficiency.

For additional product information and distribution opportunities, please contact us at contact@spineart.com.

1 Filed patent

2 Pre-clinical data may not represent clinical results.

In Vivo performance of selective electron beam-melted Ti-&Al-4V structures

Ponader, S et al., 2010

Evaluation of biological properties of electron beam melted Ti6al4V implant with biomimetic coating in vitro and in vivo.

Li, X et al., 2012

Porous titanium-6 aluminium-4 vandium cage has better osseointegration and less micromotion than a poly-ether-ether-ketone cage in sheep vertebral fusion.

Yang, J. et al., 2014

Does impaction of titanium-coated interbody fusion cages into the disc space cause wear debris or delamination?

Annette Kienle, MDa,*, Nicolas Graf, Dipl-Ing (FH)a, Hans-Joachim Wilke, PhDb

Direct three-dimensional morphometric analysis of human cancellous bone: microstructural data from spine, femur, iliac crest, and calcaneus

Tor Hildebrand, Andres Laib, Ralph Müller, Jan Dequeker, Peter Rüegsegger

Journal of bone and mineral research. Volume 14, Number 7, 1999

Porosity of 3D biomaterial scaffolds and osteogenesis

Vassilis Karageorgiou, David Kaplan

Biomaterials 26 (2005) 5474-5491

Chapter 8 – Bone Mechanics

Tony M. Keaveny, Elise F. Morgan, Oscar C. Yeh

Standard handbook of biomedical engineering and design

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Josh Sandberg

Josh Sandberg is the President of Ortho Spine Partners and Partner for The De Angelis Group. He also serves as Co-Founder and Editor of OrthoSpineNews.

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