Bio-3D Printing – 3D Science Valley
Frontiers | Biomechanical Evaluation and the Assisted 3D Printed Model in the Patient-Specific Preoperative Planning for Thoracic Spinal Tuberculosis: A Finite Element Analysis | Bioengineering and Biotechnology
Can the sheep model fully represent the human model for the functional evaluation of cervical interbody fusion cages? | SpringerLink
Challenges in the design and regulatory approval of 3D-printed surgical implants: a two-case series - The Lancet Digital Health
Finite element model of intact C3-C7 cervical spine (A, Frontal view;... | Download Scientific Diagram
Static and dynamic fatigue behavior of topology designed and conventional 3D printed bioresorbable PCL cervical interbody fusion devices. - Abstract - Europe PMC
Metals | Free Full-Text | Development of AM Technologies for Metals in the Sector of Medical Implants | HTML
A lattice topology optimization of cervical interbody fusion cage and finite element comparison with ZK60 and Ti-6Al-4V cages | BMC Musculoskeletal Disorders | Full Text
Frontiers | Biomechanical Properties of 3D-Printed Cervical Interbody Fusion Cage With Novel SF/nHAp Composites | Materials
A lattice topology optimization of cervical interbody fusion cage and finite element comparison with ZK60 and Ti-6Al-4V cages | BMC Musculoskeletal Disorders | Full Text
Design Concepts of Polycarbonate-Based Intervertebral Lumbar Cages: Finite Element Analysis and Compression Testing
PDF) Comparative Analysis of 3D-Printed Artificial Vertebral Body Versus Titanium Mesh Cage in Repairing Bone Defects Following Single-Level Anterior Cervical Corpectomy and Fusion
Static and dynamic fatigue behavior of topology designed and conventional 3D printed bioresorbable PCL cervical interbody fusion devices. - Abstract - Europe PMC
Static and dynamic fatigue behavior of topology designed and conventional 3D printed bioresorbable PCL cervical interbody fusion devices - ScienceDirect
Cage-screw and anterior plating combination reduces the risk of micromotion and subsidence in multilevel anterior cervical discectomy and fusion—a finite element study - The Spine Journal
A lattice topology optimization of cervical interbody fusion cage and finite element comparison with ZK60 and Ti-6Al-4V cages | BMC Musculoskeletal Disorders | Full Text
3D printed porous Ti6Al4V cage: Effects of additive angle on surface properties and biocompatibility; bone ingrowth in Beagle tibia model - ScienceDirect
3D printing assisted finite element analysis for optimising the manufacturing parameters of a lumbar fusion cage - ScienceDirect
Applied Sciences | Free Full-Text | Design and Biomechanical Verification of Additive Manufactured Composite Spinal Cage Composed of Porous Titanium Cover and PEEK Body | HTML
A novel anatomic titanium mesh cage for reducing the subsidence rate after anterior cervical corpectomy: a finite element study | Scientific Reports
3D finite element model of the cervical spine, developed by Del Palomar... | Download Scientific Diagram
A lattice topology optimization of cervical interbody fusion cage and finite element comparison with ZK60 and Ti-6Al-4V cages | BMC Musculoskeletal Disorders | Full Text
A critical review on the biomechanical study of cervical interbody fusion cage - ScienceDirect
Design and fabrication of 3D-printed anatomically shaped lumbar cage for intervertebral disc (IVD) degeneration treatment – topic of research paper in Medical engineering. Download scholarly article PDF and read for free on
