Chest-wall reconstruction with a customized titanium-alloy prosthesis fabricated by 3D printing and rapid prototyping
نویسندگان
چکیده
BACKGROUND As 3D printing technology emerge, there is increasing demand for a more customizable implant in the repair of chest-wall bony defects. This article aims to present a custom design and fabrication method for repairing bony defects of the chest wall following tumour resection, which utilizes three-dimensional (3D) printing and rapid-prototyping technology. METHODS A 3D model of the bony defect was generated after acquiring helical CT data. A customized prosthesis was then designed using computer-aided design (CAD) and mirroring technology, and fabricated using titanium-alloy powder. The mechanical properties of the printed prosthesis were investigated using ANSYS software. RESULTS The yield strength of the titanium-alloy prosthesis was 950 ± 14 MPa (mean ± SD), and its ultimate strength was 1005 ± 26 MPa. The 3D finite element analyses revealed that the equivalent stress distribution of each prosthesis was unifrom. The symmetry and reconstruction quality contour of the repaired chest wall was satisfactory. No rejection or infection occurred during the 6-month follow-up period. CONCLUSION Chest-wall reconstruction with a customized titanium-alloy prosthesis is a reliable technique for repairing bony defects.
منابع مشابه
Electrical Energy Demand Modeling of 3D Printing Technology for Sustainable Manufacture
The advent of 3D printers has been embraced globally within few years of its emergence. The surge in the acceptability of rapid manufacturing RM technology can be attributed to the depletion and cost of natural resources, waste reduction and sustainability criterion of manufactured parts. This rapidly evolving 3D printing technologies is predicted to grow exponentially especially for the manufa...
متن کاملA new Ti-5Ag alloy for customized prostheses by three-dimensional printing (3DP).
Three important considerations in the fabrication of customized cranio-maxillofacial prostheses are geometric precision, material strength, and biocompatibility. Three-dimensional printing (3DP) is a rapid part-fabrication process that can produce complex parts with high precision. The aim of this study was to design, synthesize by 3DP, and characterize a new Ti-5Ag (wt%) alloy. Silver nitrate ...
متن کاملThe Use of 3d Scanning and Rapid Prototyping in Medical Engineering
New cost effective scanning and modeling techniques are used today to process data acquisition and 3D reconstruction in order to fabricate prostheses and orthoses by 3D printing. Paper approaches two scanning and 3D modeling techniques used in order to fabricate orthoses and prostheses. In this study, an artificial prosthetic ear was produced through 3D printing using two scanning techniques: s...
متن کاملThe use of 3D printing technology in human defect reconstruction-a review of cases study
In this paper, we report the benefit of Computer Tomography (CT), reverse engineering (RE) and rapid prototyping (RP) in individual implant production for maxillofacial surgery. The design and fabrication processes includes: a) processing medical image data of a patient’s pathologically defective area having a symmetrical part to construct a three-dimensional (3D) digital model; b) forming an i...
متن کاملThe Benefit of 3D Printing in Medical Field: Example Frontal Defect Reconstruction
This study describes a methodology to design a custom-made cranial prosthesis for a patient who suffered injuries from road traffic accident. Computer based cranial defect reconstruction techniques is developed. The design approach was based on the 3D reconstruction of the skull of the patient, obtained by a CT scan. Then a reverse engineering (RE) method is used to reconstruct the defect prost...
متن کامل