$9.3M ‘Just in time’ 3D printed bone implant project in Australia set to transform tumour surgery

A recent collaboration between the Australian government, Melbourne’s RMIT University, the University of Technology Sydney (UTS), St. Vincent’s Hospital Melbourne, and medical tech company Stryker is aiming to solidify the country’s prominent place within the 3D printed implant industry.

The five parties are teaming up for a five-year project called “Just in time implants,” through which they will develop 3D printed patient-specific implants for people undergoing tumor removal and bone cancer treatment.

The innovative 3D printing implant project, which has accumulated AU $12.1 million ($9.3M) in funding, is being supported by medical tech company Stryker as well as Australia’s Innovative Manufacturing Cooperative Research Centre (IMCRC), part of the government’s Department of Industry, Innovation and Science.

According to Milan Brandt, a lead researcher on the project, the joint team will be leveraging additive manufacturing technologies to produce patient-specific implants which can be manufactured on the spot during a patient’s bone tumor removal surgery.

The idea, he says, it to have the 3D printer operating pretty much alongside the surgery, so the implant can be as bespoke as possible. “Our aim is to bring the technology to the theatre,” Brandt explained.

The goal, which fits with the project’s name “Just in time implants,” is described further by Professor Peter Choong, a researcher at St. Vincent’s Hospital:

“By combining specialized imaging techniques, 3D printing and the accuracy of robotic assisted surgery, we are aiming to deliver a personalized implant in time for the surgeon to remove the cancer and repair the patient’s bone in the one operation. This process will expand the surgical options available to patients and surgeons and increase the potential for limb saving surgery.”

Traditionally, implants are either standardized in terms of shape and size or can take weeks to deliver if they are customized. Evidently, having to either wait ages for a bespoke implant or having to settle for an ill-fitting one are not great options. 3D printing, as has been proven in recent years, is offering a new, more adaptable avenue for implant manufacturing.

The technology enables doctors and medical professionals to model implants based off of a patient’s specific CT scan or MRI and have them produced using medical grade materials, such as titanium or certain polymers, in a much shorter time frame than using conventional manufacturing.

By Tess | 3ders.org

Image Credit: RMIT University

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About Peter Coffaro 666 Articles
A growth-driven and strategic executive, Peter Coffaro commands more than 20 years of progressive management success within the orthopedic industry. Recognized by MedReps.com as one of the top medical sales influencers in the industry; he has 10 years of combined sales management experience and has held positions as a Director, General Manager and Distributor. Peter has worked for some of the top orthopedic companies in the world - Zimmer, DePuy and Stryker. He is also the founder of OrthoFeed: a popular blog that covers orthopedic news and emerging medical technologies. Peter is a three-time Hall of Fame award winner at Johnson and Johnson and has an extensive background in organizational development, business development, sales management, digital marketing and professional education. Peter holds a B.S. degree in Biology from Northern Illinois University.

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