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 »

Image courtesy of Stryker

Stryker’s 3D-Printed Tritanium® C Anterior Cervical Cage To Be Featured at Congress of Neurological Surgeons Meeting

  Allendale, N.J. — Oct. 9, 2017 — Stryker’s Spine division will demonstrate its new 3D-printed Tritanium C Anterior Cervical Cage, an interbody fusion device designed for use in the cervical spine, at the Congress of Neurological Surgeons (CNS) Annual Meeting, Oct. 7-11, 2017, in Read More »

Image courtesy of Stryker

ASTM President’s Leadership Award Honors Jane LaGoy for Work on Metal Powders Committee

W. CONSHOHOCKEN, Pa., July 15, 2015—Jane LaGoy, technical services manager at Bodycote in Andover, Massachusetts, has been honored with the 2015 ASTM International President’s Leadership Award. The President’s Leadership Award recognizes individuals early in their ASTM career who have significantly advanced our mission through extraordinary Read More »

ASTM Logo (Image courtesy of ASTM International)

Wyss Institute at Harvard University- A Jump for Soft–Bodied Robots

By seamlessly blending soft and rigid body parts– a structural innovation used by animals and insects – a team of Harvard scientists has created a new kind of durable, soft–bodied jumping robot July 9, 2015 (BOSTON) — Traditional robots are made of components and rigid Read More »

Logo courtesy of Wyss Institute