Type:
Educational Exhibit
Keywords:
Radioprotection / Radiation dose, Experimental, Radiation safety, Quality assurance
Authors:
S. Suzuki1, T. Nakamura2, I. Kobayashi3, Y. Takei4, H. Anno5, S. Kamiya6, K. Kato7; 1Nagoya, Aichi/JP, 2Nagoya/JP, 3Tsukuba, Ibaraki/JP, 4Kurashiki/JP, 5Toyoake/JP, 6Nagoya,Aichi/JP, 7Kanagawa/JP
DOI:
10.26044/ecr2019/C-0121
References
[1] Willams JR.
The interdependence of staff and patient doses in interventional radiology.
BJR,
1997;70:498-503.
[2] International Commission on Radiological Protection Publication 85.
Avoidance of radiation injuries from medical interventional procedures.
Ann.
ICRP 2000;30(2):64.
[3] International Commission on Radiological Protection Publication 139.
Occupational Radiological Protection in Interventional Procedures.
Ann.
ICRP 2018;47(2):72,83.
[4] Okazaki T.
et al.
Applicability of Practical Calibration of a Small-type OSL dosimeter for Measuring the Exposure Doses Effected by Scattered and Penetrating X-rays.
Progress in Nuclear Science and Technology,
2016.
[5] Takegami K.
et al.
Energy dependence measurement of small-type optically stimulated luminescence (OSL) dosimeter by means of characteristic X-rays induced with general diagnostic X-ray equipment.
Radiol Phys.
Technol,
2016;9:99-108.
[6] Kawaguchi A.
et al.
Energy dependence and angular dependence of an optically stimulated luminescence dosimeter in the mammography energy range.
Journal of Applied Clinical Medical Physics.
2017;1-6.
[7] Nakamura T.
et al.
Simultaneous measurement of patient dose and distribution of indoor scattered radiation during digital breast tomosynthesis.
Radiography,
2018.
(https://doi.org/10.1016/j.radi.2018.10.006)