1. Examination of Application to Radiation Protection Education by Four-dimensional Visualization of Scatter Distribution in Radiological Examination Using Virtual Reality
- Author
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Saki Kadoyanagi, Daiki Ueno, Koki Ueda, Toshioh Fujibuchi, and Chihiro Nakamura
- Subjects
medicine.medical_specialty ,Computer science ,Radiation ,Virtual reality ,030218 nuclear medicine & medical imaging ,03 medical and health sciences ,Radiation Protection ,0302 clinical medicine ,medicine ,Humans ,Scattering, Radiation ,Fluoroscopy ,Medical physics ,medicine.diagnostic_test ,Phantoms, Imaging ,business.industry ,Virtual Reality ,General Medicine ,Radiological examination ,Visualization ,030220 oncology & carcinogenesis ,Heavy ion ,Patient assistance ,Radiation protection ,business ,Monte Carlo Method - Abstract
Purpose When working on fluoroscopy and patient assistance in a healthcare facility, workers need to understand how to properly protect scattered radiation. In this study, we examined a four-dimensional visualization method to make it easy to understand the spread of scattered radiation visually, and proposed its application to radiation protection education. Methods We constructed the X-ray room, X-ray CT room, and angiography room using Particle Heavy Ion Transport code System (PHITS), and calculated the scattered radiation distribution when the patient was irradiated with X-rays. The three-dimensional distribution of each moment was continuously displayed to create a four-dimensional distribution. Using the created data, we conducted radiation protection education including exercises to make the students confirm the scatter distribution from any direction. The effectiveness of the scattered radiation visualization data was evaluated by a questionnaire. Results The position of assistance for standing chest radiograph was less scattered radiation at the side and below the patient. As a result of the questionnaire, this education has confirmed the effect of attracting attention about radiation protection. The fourdimensional visualization allowed students to understand the behavior of radiation and the source of scattered radiation. Conclusion Visualization of three- and four-dimensional scattered radiation distribution in the radiological examination room can intuitively enhance the understanding of the invisible radiation spread and appropriate aids.
- Published
- 2019