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Three-dimensional finite element analysis of a new three-dimensional printed  porous fusion cage for cervical vertebra
Three-dimensional finite element analysis of a new three-dimensional printed porous fusion cage for cervical vertebra

3D printing assisted finite element analysis for optimising the  manufacturing parameters of a lumbar fusion cage - ScienceDirect
3D printing assisted finite element analysis for optimising the manufacturing parameters of a lumbar fusion cage - ScienceDirect

Applications of 3D printing in the management of severe spinal conditions -  Elena Provaggi, Julian J H Leong, Deepak M Kalaskar, 2017
Applications of 3D printing in the management of severe spinal conditions - Elena Provaggi, Julian J H Leong, Deepak M Kalaskar, 2017

Three-dimensional finite element analysis of a new three-dimensional printed  porous fusion cage for cervical vertebra
Three-dimensional finite element analysis of a new three-dimensional printed porous fusion cage for cervical vertebra

Stress analysis of different types of cages in cervical vertebrae: a finite  element study
Stress analysis of different types of cages in cervical vertebrae: a finite element study

Finite element model of intact C3-C7 cervical spine (A, Frontal view;... |  Download Scientific Diagram
Finite element model of intact C3-C7 cervical spine (A, Frontal view;... | Download Scientific Diagram

Cervical fusion cage computationally optimized with porous architected  Titanium for minimized subsidence - ScienceDirect
Cervical fusion cage computationally optimized with porous architected Titanium for minimized subsidence - ScienceDirect

Finite element model of the L2-L5 spine segment. Configuration of the... |  Download Scientific Diagram
Finite element model of the L2-L5 spine segment. Configuration of the... | Download Scientific Diagram

Frontiers | Biomechanical Evaluation and the Assisted 3D Printed Model in  the Patient-Specific Preoperative Planning for Thoracic Spinal  Tuberculosis: A Finite Element Analysis
Frontiers | Biomechanical Evaluation and the Assisted 3D Printed Model in the Patient-Specific Preoperative Planning for Thoracic Spinal Tuberculosis: A Finite Element Analysis

Metals | Free Full-Text | Finite Element Analysis and Validation of  Segments C2-C7 of the Cervical Spine
Metals | Free Full-Text | Finite Element Analysis and Validation of Segments C2-C7 of the Cervical Spine

Biomechanical evaluation of different sizes of 3D printed cage in lumbar  interbody fusion-a finite element analysis | BMC Musculoskeletal Disorders  | Full Text
Biomechanical evaluation of different sizes of 3D printed cage in lumbar interbody fusion-a finite element analysis | BMC Musculoskeletal Disorders | Full Text

Frontiers | Finite Element Analysis of Spinal Cord Stress in a Single  Segment Cervical Spondylotic Myelopathy
Frontiers | Finite Element Analysis of Spinal Cord Stress in a Single Segment Cervical Spondylotic Myelopathy

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 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 finite element model of the cervical spine, developed by Del Palomar...  | Download Scientific Diagram
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 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 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 lattice topology optimization of cervical interbody fusion cage and finite element comparison with ZK60 and Ti-6Al-4V cages | BMC Musculoskeletal Disorders | Full Text

JFB | Free Full-Text | Finite Element Method for the Evaluation of the  Human Spine: A Literature Overview
JFB | Free Full-Text | Finite Element Method for the Evaluation of the Human Spine: A Literature Overview

Stress analysis of different types of cages in cervical vertebrae: a finite  element study
Stress analysis of different types of cages in cervical vertebrae: a finite element study

Biomechanical evaluation of different sizes of 3D printed cage in lumbar  interbody fusion-a finite element analysis | BMC Musculoskeletal Disorders  | Full Text
Biomechanical evaluation of different sizes of 3D printed cage in lumbar interbody fusion-a finite element analysis | BMC Musculoskeletal Disorders | Full Text

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 lattice topology optimization of cervical interbody fusion cage and finite element comparison with ZK60 and Ti-6Al-4V cages | BMC Musculoskeletal Disorders | Full Text

Static and dynamic fatigue behavior of topology designed and conventional 3D  printed bioresorbable PCL cervical interbody fusion devices - ScienceDirect
Static and dynamic fatigue behavior of topology designed and conventional 3D printed bioresorbable PCL cervical interbody fusion devices - ScienceDirect

Evaluation of the contact surface between vertebral endplate and 3D printed  patient-specific cage vs commercial cage | Scientific Reports
Evaluation of the contact surface between vertebral endplate and 3D printed patient-specific cage vs commercial cage | Scientific Reports

Evaluation of the contact surface between vertebral endplate and 3D printed  patient-specific cage vs commercial cage | Scientific Reports
Evaluation of the contact surface between vertebral endplate and 3D printed patient-specific cage vs commercial cage | Scientific Reports

Bioengineering | Free Full-Text | Investigation into Cervical Spine  Biomechanics Following Single, Multilevel and Hybrid Disc Replacement  Surgery with Dynamic Cervical Implant and Fusion: A Finite Element Study
Bioengineering | Free Full-Text | Investigation into Cervical Spine Biomechanics Following Single, Multilevel and Hybrid Disc Replacement Surgery with Dynamic Cervical Implant and Fusion: A Finite Element Study

PDF] Cervical fusion cage computationally optimized with porous architected  Titanium for minimized subsidence. | Semantic Scholar
PDF] Cervical fusion cage computationally optimized with porous architected Titanium for minimized subsidence. | Semantic Scholar