Denise Vicentin, a Brazilian cancer survivor who lost her right eye and part of her jaw, has received a facial prosthesis develop using a 3D printed prototype.
Researchers at Paulista University (UNIP), São Paulo, Brazil, implemented its method, published in the Journal of Otolaryngology – Head & Neck Surgery, which uses a smartphone to capture digital facial impressions of patients with maxillofacial defects. This data is then used to create cost-effective additively manufactured facial prostheses.
“In the past, it took much longer work, hours of sculpting by hand, and the process was very invasive, with material on the patient’s face to get an imprint of their appearance,” explained Rodrigo Salazar, the lead researcher, and UNIP Postgraduate Dental School.
A maxillofacial 3D printed prosthesis
Vicentin, 53, was diagnosed with a facial tumor 30 years ago. It was then removed twice but returned in a malignant form 20 years later. As a result of her previous treatment, she has difficulty eating and her speech is slurred. In 2018, Luciano Dib, supervisor of the study and UNIP Postgraduate Dental School, began developing the prosthesis method after seeing 3D printing used at a mall.
Shortly after, Dib started working with Vicentin to produce a personalized prosthesis. Thus, she underwent multiple surgeries to build up her facial tissue. Dib then implanted titanium rods in her eye socket to holds the prosthesis. The researchers took 15 pictures of Vicentin’s face from various angles, which were used to make the 3D model.
A 3D printed prototype prosthesis was then used to create the final device in 12 hours -which was produced from silicone, resin, and synthetic fibers. This was then painted to match Vicentin’s skin and eye color.
Manufacturing on Demand
Treating facial defects with additive manufacturing
Upon the success of Vicentin’s prosthesis, Dib and Salazar plan to open a treatment center for facial prosthetic rehabilitation built by UNIP in 2021. As stated by the researchers, creating a prothesis for Vicentin using conventional techniques would involve equipment costing up to $500,000. Their method requires a computer and a smartphone.
Elsewhere, companies are also advancing maxillofacial implants and prostheses that integrate additive manufacturing. Previously, Latvian 3D software company, WiDE, received a CE mark for its software that helps users to quickly iterate 3D printed prosthesis in new sizes. Moreover, the Québec Industrial Research Centre (CRIQ), installed a GE Additive Arcam Electron Beam Melting (EBM) Q10 Plus machine at its facility to accelerate the development of patient-specific lower jawbone implants.
The UNIP study, is co-authored by Rodrigo Salazar-Gamarra, Rosemary Seelaus, Jorge Vicente Lopes da Silva, Airton Moreira da Silva, and Luciano Lauria Dib.
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Author: Tia Vialva
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