3D-gedrucktes Modell für Wirbelsäule und Luftröhre
Projektname: 3D-gedrucktes Modell zur Simulation der Halswirbelsäulenchirurgie.
Empfohlene Ausstattung: 3D-Drucker SLA450.
Materialien: ProtoFab Formula L1-Harz.
Vorteile: Hochpräzise, schnell und einfach für die Nachbearbeitung.
Fertigungsprozess: 3D-Druck und Vakuumguss.
Vorlaufzeit: 7 Tage.
Peking University Third Hospital requested an accurate 3D model of a patient’s spine and windpipe for an upcoming operation. There was a complication with the patient’s windpipe due to illness and it was not possible for the surgeon to fit a tube through it and complete the operation. The hospital came to us looking for a model so they could practically evaluate different solutions.
Hospital provided us with a CT scan of the patient’s spinal area and required that all the detail included in the scan be represented in the final model. An additional requirement was that the windpipe should be made of soft material, with the rest of the model consisting of a hard material. They also preferred that the windpipe be made a different color from the other parts.
As this was a medical project, we imported the CT scan and NMR data into specialist medical software which is able to convert all the data into a 3D model.Inside the software we could see the problematic areas of the patient’s windpipe.
We separated the spine and other bones from the windpipe inside the software. The parts to be 3D printed in hard plastic are shown in orange, with windpipe shown in grey.After the analysis was complete, our technicians had to add all the necessary support structures. This particular model was highly complex and without support material being printed, the shape would become unstable or even collapse. This is an extremely complex task but the advanced software makes it much more efficient. In the image below the red sections are all support structures that were removed in post-production.
The next stage was printing itself. In medical projects such as this one only an exact replica will do and the level of detail required is staggering. However, SLA 3D printing is more than a match for such complex shapes and structures, and with ProtoFab’s skilled engineers on hand, every last detail was reproduced perfectly.
Upload for printing
Keep the part in the ethanol and remove the supports
Remove from build platform
Part after post-processing
After printing the model was carefully removed from the printer and washed in alcohol. It was then time to remove the many support structures. In the middle image below the support structures are still in place, but the image to the right shows the final version of the model with the supports removed. There were no visible vestiges from this additional printed material and the client was very happy with the final result.The hospital requested that the windpipe be made from a soft rubber material, as opposed to the hard material skeleton section. To achieve this, we first 3D printed a plastic model of the part. We then scanned it with a three-dimensional scanner and the results were sent back to the hospital to confirm its accuracy.We then used this high-quality model to produce a silicone rubber mold. It was important that the 3D printed model was flawless as any imperfections would be carried over to the mold. With this mold we could then produce the soft parts in different colors using vacuum casting.
With both sections complete, all that was left was to assemble them together. The finished model was delivered to Beijing No.3 Hospital and played a crucial role in patient’s operation. It allowed doctors to analyse a millimeter accurate physical representation of the patient’s windpipe and surrounding area in advance of the operation, and gave them the chance to make preparations that would otherwise be impossible. After the operation was complete, the high-quality model has continued to serve a purpose in the hospital, giving students and trainee surgeons the opportunity to hold a specific case in their hands and see all of its complexities up close. For training purposes, such detailed models are highly valuable.
If you’d like to learn more about how ProtoFab can provide solutions for the medical industry, or if you have project similar to the one described here, feel free to get in touch!