Implants

NuVasive Proprietary Porous PEEK™ Technology Used In First XLIF® Spine Surgery Cases

NuVasive Expands Applications of Porous PEEK Surface Technology to Lateral Surgery with First-of-its-Kind Cohere® XLIF Implant San Diego, April 1, 2019 /PRNewswire/ -- NuVasive, Inc. (NASDAQ: NUVA), the leader in spine technology innovation, focused on transforming spine surgery with minimally disruptive, procedurally integrated solutions, today announced the first-case uses of Cohere® XLIF,...

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Implants

NuVasive Proprietary Porous PEEK™ Technology Used In First XLIF-® Spine Surgery Cases

NuVasive Expands Applications of Porous PEEK Surface Technology to Lateral Surgery with First-of-its-Kind Cohere® XLIF Implant San Diego, April 1, 2019 /PRNewswire/ -- NuVasive, Inc. (NASDAQ: NUVA), the leader in spine technology innovation, focused on transforming spine surgery with minimally disruptive, procedurally integrated solutions, today announced the first-case uses of Cohere® XLIF,...

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New V-417.336025E1 Long Travel Linear Motor Stage Achieves Velocities to 79 /Sec (2m/Sec)
Positioners

New V-417.336025E1 Long Travel Linear Motor Stage Achieves Velocities to 79 /Sec (2m/Sec)

High accuracy, repeatability and functionality by position encoder features 1 nm sensor resolution. Connectors, cable drag chain and special protection provides toughness and reliability in 24/7 industrial automation applications. Used in optics, photonics, micro-electronics test and assembly, semiconductor test, inspection, bio-technology, DNA sequencing, 3D printing, laser processing and...

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New V-417.336025E1 Long Travel Linear Motor Stage Achieves Velocities to 79 /Sec (2m/Sec)
Positioners

New V-417.336025E1 Long Travel Linear Motor Stage Achieves Velocities to 79 /Sec (2m/Sec)

High accuracy, repeatability and functionality by position encoder features 1 nm sensor resolution. Connectors, cable drag chain and special protection provides toughness and reliability in 24/7 industrial automation applications. Used in optics, photonics, micro-electronics test and assembly, semiconductor test, inspection, bio-technology, DNA sequencing, 3D printing, laser processing and...

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New IdentiTi Porous Titanium Interbody System Features Reduced Density (60% porous), Allowing Improved Intraoperative and Postoperative Imaging
Medical Equipment

New IdentiTi Porous Titanium Interbody System Features Reduced Density (60% porous), Allowing Improved Intraoperative and Postoperative Imaging

Designed to provide the biological, biomechanical and imaging features that surgeons seek in a fusion construct. Includes predictable performance associated with the subtractive manufacturing process, creating a porous titanium material with consistent and reproducible interconnected pore sizes. Features pore structure and an architecture that enables both immediate and long-term stability.

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New IdentiTi Porous Titanium Interbody System Features Reduced Density (60% porous), Allowing Improved Intraoperative and Postoperative Imaging
Medical Equipment

New IdentiTi Porous Titanium Interbody System Features Reduced Density (60% porous), Allowing Improved Intraoperative and Postoperative Imaging

Designed to provide the biological, biomechanical and imaging features that surgeons seek in a fusion construct. Includes predictable performance associated with the subtractive manufacturing process, creating a porous titanium material with consistent and reproducible interconnected pore sizes. Features pore structure and an architecture that enables both immediate and long-term stability.

Read More »

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