Newly Published Data Demonstrate Bone In-Growth Potential of Stryker’s 3D-Printed Tritanium® Cage

Comparative animal study found significant differences in biomechanical and histologic performance among various interbody cage materials Results showed that Stryker’s 3D-printed porous Tritanium cages achieved statistically significant increases in bone in-growth Allendale, N.J. –– Aug. 2, 2018 — Stryker’s Spine division today announced the publication Read More »

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Stryker Spine Division’s Tritanium® C Anterior Cervical Cage Gains Momentum With Surgeons

Tritanium C Anterior Cervical Cage Implanted By More Than 300 Surgeons Since Late-October Launch   Allendale, N.J.— March 15, 2018 — Stryker’s Spine division today announced that its Tritanium® C Anterior Cervical Cage, a 3D-printed interbody fusion cage intended for use in the cervical spine, Read More »

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Stryker’s Spine Division to Launch Tritanium® C Anterior Cervical Cage at NASS 2017

Latest Addition to Tritanium Product Line Brings Benefits of 3D-Printed Implants that Mimic Porosity of Bone to Cervical Fusion Procedures Allendale, N.J. — Oct. 23, 2017 — Stryker’s Spine division will introduce its Tritanium® C Anterior Cervical Cage, a 3D-printed interbody fusion cage intended for Read More »

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Stryker’s Spine Division Debuts 3D-Printed Tritanium® Posterior Lumbar Cage at AANS Meeting

This Proprietary Tritanium Technology, in Spinal Applications, Is Designed for Bone In-Growth & Enhanced Biological Fixation Allendale, New Jersey, USA – April 29, 2016 – Stryker’s Spine division will introduce the Tritanium Posterior Lumbar (PL) Cage, a 3D-printed intervertebral body fusion device that aids in lumbar Read More »

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