New System Makes 3D-Printed Heart in Hours

The models could provide a more intuitive way for surgeons to assess and prepare for the anatomical idiosyncrasies of individual patients.

Photo Caption: The hope is that this study will shed light on whether 3-D-printed physical hearts can actually improve surgical outcomes. (Photo: Bryce Vickmark)

Pace and Golland’s solution was to ask a human expert to identify boundaries in a few of the cross sections and allow algorithms to take over from there. Their strongest results came when they asked the expert to segment only a small patch —one-ninth of the total area — of each cross section.

In that case, segmenting just 14 patches and letting the algorithm infer the rest yielded 90 percent agreement with expert segmentation of the entire collection of 200 cross sections. Human segmentation of just three patches yielded 80 percent agreement.

“I think that if somebody told me that I could segment the whole heart from eight slices out of 200, I would not have believed them,” Golland says. “It was a surprise to us.”

Together, human segmentation of sample patches and the algorithmic generation of a digital, 3-D heart model takes about an hour. The 3-D-printing process takes a couple of hours more.


Currently, the algorithm examines patches of unsegmented cross sections and looks for similar features in the nearest segmented cross sections. But Golland believes that its performance might be improved if it also examined patches that ran obliquely across several cross sections. This and other variations on the algorithm are the subject of ongoing research.

The clinical study in the fall will involve MRIs from 10 patients who have already received treatment at Boston Children’s Hospital. Each of seven surgeons will be given data on all 10 patients — some, probably, more than once. That data will include the raw MRI scans and, on a randomized basis, either a physical model or a computerized 3-D model, based, again at random, on either human segmentations or algorithmic segmentations.

Using that data, the surgeons will draw up surgical plans, which will be compared with documentation of the interventions that were performed on each of the patients. The hope is that the study will shed light on whether 3-D-printed physical models can actually improve surgical outcomes.

“Absolutely, a 3-D model would indeed help,” says Sitaram Emani, a cardiac surgeon at Boston Children’s Hospital who is not a co-author on the new paper. “We have used this type of model in a few patients, and in fact performed ‘virtual surgery’ on the heart to simulate real conditions. Doing this really helped with the real surgery in terms of reducing the amount of time spent examining the heart and performing the repair.”

“I think having this will also reduce the incidence of residual lesions — imperfections in repair — by allowing us to simulate and plan the size and shape of patches to be used,” Emani adds. “Ultimately, 3D-printed patches based upon the model will allow us to tailor prosthesis to patient.”

“Finally, having this immensely simplifies discussions with families, who find the anatomy confusing,” Emani says. “This gives them a better visual, and many patients and families have commented on how this empowers them to understand their condition better.”

Editor’s Note: This article was republished with permission from the MIT News Office.

About the Author

MIT News · MIT News is dedicated to communicating to the media and the public the news and achievements of the students at the Massachusetts Institute of Technology.
Contact MIT News:  ·  View More by MIT News.
Follow MIT on Twitter. Follow on FaceBook


Log in to leave a Comment

Editors’ Picks

Japanese Startup GROOVE X Goes Viral as Teaser for LOVOT Robot
GROOVE X is teasing its LOVOT companion robots that are scheduled to...

What Humanoid Backflips Mean for Robot Agility
In just 24 months, machine agility has gone from the Keystone Kops, to...

Artificial Muscles Give Soft Robots ‘Superpowers’
Researchers have created origami-inspired artificial muscles that allow soft robots to lift...

RoboBusiness Europe 2018 Registration Opens
Registration is now open for RoboBusiness 2018, which takes place Feb. 14-15 in...