IPEM topical report: guidance on 3D printing in radiotherapy.

There has been an increase in the availability and utilization of commercially available 3D printers in radiotherapy, with applications in phantoms, brachytherapy applicators, bolus, compensators, and immobilization devices. Additive manufacturing in the form of 3D printing has the advantage of rapid production of personalized patient specific prints or customized phantoms within a short timeframe. One of the barriers to uptake has been the lack of guidance.

Introduction of novel 3D-printed superficial applicators for high-dose-rate skin brachytherapy.

Purpose: Custom-made surface mold applicators often allow more flexibility when carrying out skin brachytherapy, particularly for small treatment areas with high surface obliquity. They can, however, be difficult to manufacture, particularly if there is a lack of experience in superficial high-dose-rate brachytherapy techniques or with limited resources.

Methods And Materials: We present a novel method of manufacturing superficial brachytherapy applicators utilizing three-dimensional (3D)-printing techniques.