Development of Indirect Dosimetry by Calculation Method in the Diagnostic X-ray Equipment |
Kim, Jung-Su
(Depart. of Radiologic Technology, Chungbuk Health & Science University)
Kim, Sung-Hwan (Depart. of Radiological Science, College of Health Science, Cheongju University) Jeon, Min-Cheol (Depart. of Radiological Technology, Daejeon Health Institute of Technology) Ju, Won-Ha (Depart. of Radiology, Yeouido St. Mary's Hospital of The Catholic University) Jeong, Min-Gyu (Depart. Of Radiology, ChungBuk National University Hospital) Kim, Mi-Jeong (Ministry of Food and Drug Safety, Medical Device Research Division) Lee, Seung-Youl (Ministry of Food and Drug Safety, Medical Device Research Division) Lee, Tae-Hee (Ministry of Food and Drug Safety, Medical Device Research Division) Seoung, Youl-Hun (Depart. of Radiological Science, College of Health Science, Cheongju University) |
1 | Kimme-Smith C, Aberle DR, Sayre JW, Hart EM, Greaves SM, Brown K, et al. Effects of reduced exposure on computed radiography: comparison of nodule detection accuracy with conventional and asymmetric screen-film radiographs of a chest phantom. American Journal of Roentgenology, 1995;165(2):269-73. DOI |
2 | Al Khalifah K, Brindhaban A. Comparison between conventional radiography and digital radiography for various kVp and mAs settings using a pelvic phantom. Radiography. 2004;10(2):119-25. DOI |
3 | Van Metter R, Yorkston J. Applying a proposed definition for receptor dose to digital projection images. In: Medical imaging 2006: physics of medical imaging. San Diego, CA: SPIE; 2006, 6142. |
4 | Seibert JA, Shelton DK, Moore EH. Computed radiography x-ray exposure trends. Acad Radiol, 1996;4:313-8. |
5 | Sung DW. National Based Research of Patient Radiation National Based Research of Patient Radiation. The Report of Korea Food & Drug Administration; 2013. |
6 | IEC 60601-2-54:2009/AMD1:2015, Part 2-54: Particular requirements for the basic safety and essential performance of X-ray equipment for radiography and radioscopy; 2015. |
7 | Hanan FA. Assessment of Entrance skin dose and effective dose of some routine Examinations using calculation technique. King Saud University; 2007. |
8 | Suchart K, Montree T. An Estimation of X-Radiation Output using Mathematic Model. American Journal of Applied Sciences. 2011;8(9):923-6. DOI |
9 | IEC 61267:2005, Medical diagnostic X-ray equipment - Radiations conditions for use in the determination of characteristics, Geneva. |
10 | IEC 61674:2012, Medical electrical equipment - Dosimeters with ionization chambers and/or semiconductor detectors as used in X-ray diagnostic imaging. 2012. Oct. 24. 2018. Accessed at https://webstore.iec.ch/publication/5711 |
11 | Seoung YH. Evaluation of Accuracy and Reproducibility of Clinical General X-ray System by Safety Management Standard of Diagnostic Radiation Generators. J. Health. Med. Sci., Cheongju Univ. 2018;6(2):41-8. |
12 | Duong VT, Ho QT, Bui DK. Establishing the standard X-ray beam qualities for calibration of dosimeters used in diagnostic radiology following IAEA-TRS457. No. VINATOM-AR-13. 2014. |
13 | Suchart K, Montree T. An Estimation of X-Radiation Output using Mathematic Model. American Journal of Applied Sciences. 2011;8(9):923-6. DOI |
14 | Edmonds IR. Calculation of patient skin dose from diagnostic X-ray procedures. The British journal of radiology. 1984;57(680):733-4. DOI |
15 | Roh YH, Kim JM, The Tendency of Medical Electrical Equipment - IEC 60601-2-54: Particular Requirements for the Basic Safety and Essential Performance of X-ray Equipment for Radiography and Radioscopy. J. Radiological Science & Technology. 2015;38(4):331-6. DOI |
16 | Technical White Paper: Monitoring and Tracking of Fluoroscopic Dose, CRCPD Publication #E-10-7, 2010. |
17 | Mori T, et al. The Calculation and Measurement of an Entrances Surface Dose in Diagnostic X-ray. Committee of Radiation Protection (NDD group) in the Ibaragi branch of Japanese Society of Radiological Technology; 1984. |
18 | Tung CJ, Tsai HY. Evaluations of gonad and fetal doses for diagnostic radiology. Proc Nat Sci Counc Repub China B. 1999;23(3):107-13. |
19 | Suzuki M, et al. The Expression for an Entrances Surface Dose of Patients in Diagnostic X-ray-NDD Method. Committee of Radiation Protection in the Ibaragi branch of Japanese Society of Radiological Technology; 1996. |
20 | Kim SC, Kim CY, Ahn SM. Calculation Method of Entrance Skin Dose in X-ray Beam Quality Factor. Jour. of KoCon. 2010;10(2):258-67. |
21 | Sung HJ, Han JB, Song JN, Choi NG. Entrance Surface Dose according to Dose Calculation: Head and Wrist. J. Radiological Science & Technology. 2016;39(3):305-12. DOI |
22 | Brosi P, Stuessi A, Verdun FR, et al. Copper filtration in pediatric digital X-ray imaging: its impact on image quality and dose. Radiol Phys Technol. 2011;4:148-55. DOI |
23 | Han JB, Choi NG, Sung HJ. Comparative Study of Radiation Exposure using Entrance Skin Dose Calculation Technique in Diagnostic X-Ray Radiography. Jour. of KoCon. 2011;11(12):357-63. |