Firas Mourtada , Sara Belko , Rachel Monane , Robert Pugliese , Lydia Komarnicky-Kocher , Sara E. Lally , Wentao Wang , Carol L. Shields , Jacqueline Emrich
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引用次数: 0
Abstract
PURPOSE
Suture preplacement by the ocular oncology surgeon is a critical step before inserting a radioactive plaque for ocular melanoma brachytherapy. We report on a novel 3D-printing method to create a custom “dummy” plaque applicator for the 22 mm notched gold plaque using in-house 3D-printing.
METHODS
A computer-aided design (CAD) file was created replicating a heavily used gold plaque that no longer has a satisfactory “dummy” plaque. The file was exported as a 3D file (surface tessellation language, STL) and prepared using Formlabs’ PreForm print software. The 3D-printed dummies were oriented on the printer to have no cups or supports on the surfaces that would come in contact with the patient's external sclera. The dummies were printed in FormLabs BioMed Clear V1 on a Formlabs Form-3 3D printer. Postprinting, the dummies were processed in isopropyl alcohol and cured according to manufacturer instructions. They were polished utilizing a rotary tool to improve transparency. Chemical and sterilization cycle tests were performed to ensure dummy integrity.
RESULTS
Four “dummy” plaques were printed. The 3D-printed “dummy” dimensions were verified to be within 0.5-mm of the notched plaque using digital calipers. The polishing process created acceptable light opacity for the eye plaque procedure in the operating room. No impactful discoloration or material change was observed during the chemical and sterilization cycle tests performed.
CONCLUSIONS
3D printing can produce custom eye plaque dummies using transparent, biocompatible, chemically inert materials suitable for human use. This capability introduces an additional layer of patient-specific hygienics.
期刊介绍:
Brachytherapy is an international and multidisciplinary journal that publishes original peer-reviewed articles and selected reviews on the techniques and clinical applications of interstitial and intracavitary radiation in the management of cancers. Laboratory and experimental research relevant to clinical practice is also included. Related disciplines include medical physics, medical oncology, and radiation oncology and radiology. Brachytherapy publishes technical advances, original articles, reviews, and point/counterpoint on controversial issues. Original articles that address any aspect of brachytherapy are invited. Letters to the Editor-in-Chief are encouraged.
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