Intentional creation of suboptimal, realistic dose distributions
Skylar S. Gay, Mary P. Gronberg, Raymond Mumme, Beth M. Beadle, Anuja Jhingran, Tze Yee Lim, Zhiqian H. Yu, Christine Chung, Meena Khan, Chelsea Pinnix, Sanjay Shete, Brent Parker, Tucker J. Netherton, Carlos E. Cardenas, Laurence E. Court

TL;DR
This paper introduces a method to create realistic but suboptimal radiation dose plans to improve training for radiation oncology residents.
Contribution
The novel contribution is a technique to generate controllable, realistic suboptimal dose distributions for educational purposes.
Findings
Suboptimal dose distributions with decreased organ sparing, conformality, and increased hotspots were created successfully.
Experienced clinicians rated the altered dose distributions as realistic.
Changes in dose metrics were statistically significant and controllable.
Abstract
Radiation oncology residents report a lack of understanding and confidence in assessing radiotherapy plan quality. A contributing factor is the environment in which plan review is taught during residency, that is, routine clinical practice, which does not provide ample time for self‐guided practice in a low‐stakes setting. Expertise in plan review requires diverse case presentation and many examples, which are often not achievable in smaller programs and for less common cancer types. As plan quality affects patient outcomes, it is important to address these pitfalls in the education of residents on plan review. To address the identified pitfalls of clinic‐based training, we have developed techniques to create realistic dose distributions that appear suboptimal in a controllable way. These plans can provide many more case examples in the training curriculum and present a low‐stakes…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Advances in Oncology and Radiotherapy · Effects of Radiation Exposure
