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.
Powder metallurgy with space holder for porous titanium implants: A review - ScienceDirect
Metals, Free Full-Text
G7® Acetabular System by Educación Continua - Issuu
OsseoTi Porous Metal Technology, Zimmer Biomet
Ceramic materials for 3D printing of biomimetic bone scaffolds – Current state-of-the-art & future perspectives - ScienceDirect
3D Printing in Orthopedics: Better Knee, Hip & Spine Implants
Mechanical Characterization of Additively Manufactured Orthopedic Cellular Implants: Case Study on Different Cell Types and Effect of Defects
Mechanical Characterization of Additively Manufactured Orthopedic Cellular Implants: Case Study on Different Cell Types and Effect of Defects
Biomet Announces Successful Global Introduction of G7 OsseoTi Porous Acetabular Shells
3D-printed porous Ti6Al4V scaffolds for long bone repair in animal models: a systematic review, Journal of Orthopaedic Surgery and Research
Additive manufacturing technology for porous metal implant applications and triple minimal surface structures: A review - ScienceDirect
OsseoTi® Porous Metal Technology
OsseoTi® Porous Metal Technology
Zimmer Biomet
Powder metallurgy with space holder for porous titanium implants: A review - ScienceDirect