Patient‐specific intervertebral disc implants using rapid manufacturing technology
Abstract
Purpose
The purpose of this paper is to develop a process chain for design and manufacture of endplates of intervertebral disc implants, with specific emphasis on designing footprint profiles and matching endplate geometry.
Design/methodology/approach
Existing techniques for acquiring patient‐specific information from CT scan data was and a user‐friendly software solution was developed to facilitate pre‐surgical planning and semi‐automated design. The steps in the process chain were validated experimentally by manufacturing Ti6Al4 V endplates by means of Direct Metal Laser Sintering to match vertebrae of a cadaver and were tested for accuracy of the implant‐to‐bone fitment.
Findings
Intervertebral disc endplates were successfully designed and rapid manufactured using a biocompatible material. Accuracy within 0.37 mm was achieved. User‐friendly, semi‐automated design software offers an opportunity for surgeons to become more easily involved in the design process and speeds up the process to more accurately develop a custom‐made implant.
Research limitations/implications
This research is limited to the design and manufacture of the bone‐implant contacting interface. Other design features, such as keels which are commonly used for implant fixation as well as the functionality of the implant joint mechanics were not considered as there may be several feasible design alternatives.
Practical implications
This research may change the way that current intervertebral disc implants are designed and manufactured.
Originality/value
Apart from other areas of application (cranial, maxillofacial, hip, knee, foot) and recent research on customized disc nucleus replacement, very little work has been done to develop patient‐specific implants for the spine. This research was conducted to contribute and provide much needed progress in this area of application.
Keywords
Citation
de Beer, N. and van der Merwe, A. (2013), "Patient‐specific intervertebral disc implants using rapid manufacturing technology", Rapid Prototyping Journal, Vol. 19 No. 2, pp. 126-139. https://doi.org/10.1108/13552541311302987
Publisher
:Emerald Group Publishing Limited
Copyright © 2013, Emerald Group Publishing Limited