Zimmer Biomet’s OsseoTi Porous Metal Technology uses human CT data in combination with 3D printing technology to build a structure that directly mimics the architecture of human cancellous bone.
Novel Highly Porous Metal Technology in Artificial Hip and Knee Replacement: Processing Methodologies and Clinical Applications
Zimmer Biomet Receives FDA Clearance for 3D Printed Unite3D Ankle Fusion Systems
Zimmer Biomet obtains FDA 510(k) clearance for Persona OsseoTi
3D-printed porous Ti6Al4V scaffolds for long bone repair in animal models: a systematic review, Journal of Orthopaedic Surgery and Research
New Porous Iteration of Anatomic Keeled Tibia
Powder metallurgy with space holder for porous titanium implants: A review - ScienceDirect
MODULAR FEMORAL Revision System - Zimmer Biomet - PDF Catalogs
Enhanced osseointegration through direct energy deposition porous coating for cementless orthopedic implant fixation
Mechanical Characterization of Additively Manufactured Orthopedic Cellular Implants: Case Study on Different Cell Types and Effect of Defects
Zimmer Biomet Acquires A&E Medical: Implications On 3D Printing Medical Technology « Fabbaloo
OsseoTi Porous Metal. Surgical Technique. Foot and Ankle Reconstructive Wedges. Cotton Protocol with Profile 2. Inspired by Bone - PDF Free Download
Zimmer Biomet Acquires A&E Medical: Implications On 3D Printing Medical Technology « Fabbaloo
Zimmer Biomet #OsseoTi Porous Metal Foot & Ankle Reconstructive Wedge