With images based on the patient’s high-resolution CT (computed tomography) scans and transthoracic echocardiograms, UC Davis engineers printed a heart model that enabled surgeons to clearly see an obstruction in the outflow from two ventricles. For pediatric heart surgeon Gary Raff, the model was the key in helping him determine the best surgical course to take. In this particular case, it was an aortic translocation, a resection (or removal) of the obstruction under the pulmonic valves and aortic valves.
“We have started utilizing some 3-D modeling of the more challenging congenital heart patients we care for,” said Raff, who serves as chief of pediatric cardiothoracic surgery at the heart center. “This is a tremendous resource and a unique one, something that could only have happened with the collaboration between the Davis campus and the medical center. It can really help save lives.”
This new printer technology was made possible by a Biomedical Engineering group called TEAM (Translating Engineering Advances to Medicine). Its Design, Prototyping and Fabrication Facilities provide design assistance and inexpensive rapid prototyping techniques from its laboratory on the Davis campus.
Kyriacos Athanasiou, professor of biomedical engineering and orthopaedic surgery at UC Davis and TEAM’s director, noted that TEAM allows them to design and engineer complex surgical approaches.
“We first embarked on surgical pre-planning in the veterinary population several years ago and then began translating its success to human patients,” said Athanasiou. “We are excited to be able to help surgeons visualize and even practice on 3-D printed models. This kind of pre-surgical planning not only has the potential to yield new solutions but can also shorten the time patients spend in surgery.”
The UC Davis TEAM speeds up the adoption and commercialization of newly developed technologies, and its prototyping lab features many of the industry’s most advanced technologies in the fields of 3-D printing, 3-D scanning, printed circuit board manufacturing, laser machining and software.