en Radiation Biology Radiation Biology تحقيق بديع Original Research <b><font face="TimesNewRoman,Bold" size="3"><p align="left">ABSTRACT</p><p align="left">Background: </p><p align="left">as fluoroscopy or different angiographies are usually evaluated using TL dosimeter. This</p><p align="left">method is a time-consuming procedure therefore, radiologists are usually worried and unaware</p><p align="left">of their exact radiation dose received during each fluoroscopy or angiography. In this study, a</p><p align="left">new trend for quick estimation of effective dose based on measuring air-absorbed dose of the</p><p align="left">scattered radiations at body surface of the radiologists has been introduced.</p></font><font face="TimesNewRoman" size="3">The radiation effective dose received by the radiologists during procedures such</font><b><font face="TimesNewRoman,Bold" size="3"><p align="left">Materials and Methods: </p><p align="left">fluoroscopy unit (Shimatsu, model SF5010MD), and a water phantom (spherical plastic bag 27</p><p align="left">cm in diameter filled with water up to 22.5 cm height). Radiation field was 20 × 20 cm on the</p><p align="left">bed and X-ray tube had 1.5 and 2 mm of Aluminum as an internal and external filtration</p><p align="left">respectively. A calibrated survey meter model RDS-110 was used to measure the scattered</p><p align="left">radiation horizontally and vertically around the phantom at different angles and distances, in</p><p align="left">front and behind of an apron.</p></font><font face="TimesNewRoman" size="3">Scattered radiations of abdominal viscera were simulated by a</font><b><font face="TimesNewRoman,Bold" size="3"><p align="left">Results: </p><p align="left">mA, was 451 µGy/h. This value reduced to 4.45 µGy/h by passing through lead ribbons of</p><p align="left">serigraph and to 1.2 µSv/h behind an apron. The scattered dose rate at different angles above the</p><p align="left">bed was constant and varied by distance from the center of the radiation field. The effective</p><p align="left">dose received by the radiologist is estimated to be about 174µGy/h, while wearing an apron and</p><p align="left">staying 50 cm away from the patient during fluoroscopy or angiography of abdominal viscera.</p></font><font face="TimesNewRoman" size="3">The scattered dose rate at 1 m from the phantom, during fluoroscopy at 83 kVp and 1.7</font><i><font face="TimesNewRoman,Italic" size="3"> </font><b><font face="TimesNewRoman,Bold" size="3"><p align="left">Conclusion: </p><p align="left">different angiographies of abdominal viscera, by determining scatter radiation dose at their body</p><p align="left">surface and applying factor 0.87 for shielding effect of the body. Equivalent organ dose can also</p><p align="left">be calculated from dose rate in air after applying factor 0.87 for deep organs or 1.1 (the mass</p><p align="left">energy absorption coefficient ratio of water/tissue to air) for organs near the surface. </p><p align="left">Radiat. Res., 2005 2 (4): 185-190</p></font><font face="TimesNewRoman" size="3">The radiologist can estimate his/her effective dose following a fluoroscopy or</font><i><font face="TimesNewRoman,Italic" size="3">Iran. J. </font></i></b></i></b></b></b> ,angiography, fluoroscopy, radiologist,Effective dose, phantom 185 190 http://ijrr.com/browse.php?a_code=A-10-1-84&slc_lang=en&sid=1 M. Hajizadeh Saffar hajizadeh@mums.ac.ir 79003194753284600207 79003194753284600207 Yes S. Nekoee 79003194753284600208 79003194753284600208 No M.H. Bahrayni-Toosi 79003194753284600209 79003194753284600209 No A. Sedghi 79003194753284600210 79003194753284600210 No