Radiological imaging protection: a study on imaging dose used while planning computed tomography for external radiotherapy in Japan.

Autor: Kito, Satoshi, Suda, Yuhi, Tanabe, Satoshi, Takizawa, Takeshi, Nagahata, Tomomasa, Tohyama, Naoki, Okamoto, Hiroyuki, Kodama, Takumi, Fujita, Yukio, Miyashita, Hisayuki, Shinoda, Kazuya, Kurooka, Masahiko, Shimizu, Hidetoshi, Ohno, Takeshi, Sakamoto, Masataka
Zdroj: Journal of Radiation Research; Mar2024, Vol. 65 Issue 2, p159-167, 9p
Abstrakt: Previous studies have primarily focused on quality of imaging in radiotherapy planning computed tomography (RTCT), with few investigations on imaging doses. To our knowledge, this is the first study aimed to investigate the imaging dose in RTCT to determine baseline data for establishing national diagnostic reference levels (DRLs) in Japanese institutions. A survey questionnaire was sent to domestic RT institutions between 10 October and 16 December 2021. The questionnaire items were volume computed tomography dose index (CTDIvol), dose–length product (DLP), and acquisition parameters, including use of auto exposure image control (AEC) or image-improving reconstruction option (IIRO) for brain stereotactic irradiation (brain STI), head and neck (HN) intensity-modulated radiotherapy (IMRT), lung stereotactic body radiotherapy (lung SBRT), breast-conserving radiotherapy (breast RT), and prostate IMRT protocols. Details on the use of motion-management techniques for lung SBRT were collected. Consequently, we collected 328 responses. The 75th percentiles of CTDIvol were 92, 33, 86, 23, and 32 mGy and those of DLP were 2805, 1301, 2416, 930, and 1158 mGy·cm for brain STI, HN IMRT, lung SBRT, breast RT, and prostate IMRT, respectively. CTDIvol and DLP values in institutions that used AEC or IIRO were lower than those without use for almost all sites. The 75th percentiles of DLP in each treatment technique for lung SBRT were 2541, 2034, 2336, and 2730 mGy·cm for free breathing, breath holding, gating technique, and real-time tumor tracking technique, respectively. Our data will help in establishing DRLs for RTCT protocols, thus reducing imaging doses in Japan. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index