FRENCH HOSPITAL USES WORLD’S ONLY FULL COLOR, MULTI-MATERIAL 3D PRINTING TECHNOLOGY TO IMPROVE KIDNEY CANCER SURGERY

DMG MORI
FRENCH HOSPITAL USES WORLD’S ONLY FULL COLOR, MULTI-MATERIAL 3D PRINTING TECHNOLOGY TO IMPROVE KIDNEY CANCER SURGERY

Stratasys

Lantek Sheet Metal Solutions

FRENCH HOSPITAL USES WORLD’S ONLY FULL COLOR, MULTI-MATERIAL 3D PRINTING TECHNOLOGY TO IMPROVE KIDNEY CANCER SURGERY

Bordeaux University Hospital (CHU) in France is leading the charge to improve success rates of complex kidney tumor removal surgery, thanks to unique full-color, multi-material 3D printing technology. The CHU is currently one of the only hospitals worldwide to use a Stratasys J750 – the world’s only full-color, multi-material 3D printer – for complex kidney tumor removal cases.

The surgical team at the CHU’s Department of Urology and Kidney Transplantation is 3D printing life-like transparent and color models of the patient’s anatomy to help perform precise and successful kidney-sparing surgery and improve patient outcomes.

Jean-Christophe Bernhard, Urology Professor at Bordeaux University Hospital, says the clearer view offered by the 3D printed model helps identify and avoid damage to the delicate nearby arteries and vessels which, in the case of complex or high-volume tumors, can result in a patient’s kidney being completely removed.

Sparing the patient’s kidney is important because it reduces the chance of subsequently suffering from chronic kidney disease.

“Having a 3D-printed model comprising the patient’s kidney tumor, main arteries and vessels – each in a different color – provides an accurate picture of what we will see during operations,” explains Prof. Bernhard. “The ability to visualize the specific location of a tumor in relation to these other elements, all in three dimensions, greatly facilitates our surgical planning and is not easily achievable from a 2D scan.”

The 3D printed models are also used to enhance the explanatory process towards patients, as well as improve surgeon training.

 

Support from patients

One such patient is Carole Ridel, who recently underwent surgery at the CHU. “I was shown a 3D printed model of my kidney prior to my operation and instantly felt more reassured than I had been before surgeries I had undergone in the past,” she explains. “Seeing such a realistic representation allowed me to understand the process much better than an MRI scan. I noticed that the tumors were on the external wall of the kidney, rather than inside the organ itself, so I was comforted by realizing the situation wasn’t as bad as I had imagined.”

 

Collaborative project to improve communication with patients

Using its J750 3D Printer, CHU also recently created a collaborative research project entitled Rein 3D Print, which aims to determine whether boosting patient understanding of their surgical procedure can improve ambulatory care (same-day surgery that doesn’t necessitate an overnight stay). According to Prof. Bernhard, 3D-printed models have contributed to the success of this pilot protocol and have reduced patient hospitalization times during pre-surgery planning.

“Describing kidney tumor removal with a 2D scan or diagram will invariably leave most patients somewhat bewildered,” explains Prof. Bernhard. “Presenting them with a 3D printed model that clearly shows the tumor puts them at ease and enables the patient to grasp exactly what we’re going to do. Indeed, initial research from patient questionnaires shows that having 3D printed models increases their understanding of the surgery by up to 50%, so it’s a considerable benefit in terms of overall patient care.

Enquire about this StoryReturn to News Overviews
Lantek Sheet Metal Solutions
Tungaloy
RK International
RK International Machine Tools
HyperMILL
The Manufacturers Success Connection
CGTech VERICUT
Rainford Precision
Kasto 01908 571 590
Industrial Tooling Corporation

Copyright © 2019 Machines4sale Ltd
All Rights Reserved

Machines4sale Ltd website uses cookies to ensure you get the best experience, as detailed in our Privacy policyAgree