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access icon openaccess Augmented reality mastectomy surgical planning prototype using the HoloLens template for healthcare technology letters

This is an open access article published by the IET under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0/)
Received 30/09/2019, Accepted 02/10/2019, Published 26/11/2019

In breast reconstruction following a single mastectomy, the surgeon needs to choose between tens of available implants to find the one that can reproduce the symmetry of the patient's breasts. However, due to the lack of measurement tools this decision is made purely visually, which means the surgeon has to order multiple implants to confirm the size for every single patient. In this Letter, the authors present an augmented reality application, which enables surgeons to see the shape of the implants, as 3D holograms on the patient's body. They custom developed a two-chamber implant that can gain different shapes and be used to test the system. Furthermore, the system was tested in a user study with 13 subjects. The study showed that subjects were able to do a comparison between real and holographic implants and come to a decision about which should be used. This method can be quicker than the traditional way and eliminates sizer implants from the process. Further advantages of the method include the use of a more accurate, user-friendly device, which is easily extendable as new implants that are on the market can be easily added to the system dataset.

Inspec keywords: surgery; image reconstruction; medical image processing; prosthetics; medical computing; health care; augmented reality

Other keywords: single mastectomy; traditional way; healthcare technology letters; two-chamber implant; measurement tools; augmented reality application; holographic implants; system dataset; single patient; breast reconstruction; HoloLens template; surgeon; available implants; eliminates sizer implants; multiple implants; augmented reality mastectomy surgical planning prototype

Subjects: Optical, image and video signal processing; Prosthetics and other practical applications; Prosthetics and orthotics; Patient diagnostic methods and instrumentation; Virtual reality; Computer vision and image processing techniques; Biology and medical computing; Patient care and treatment

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http://iet.metastore.ingenta.com/content/journals/10.1049/htl.2019.0091
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