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The Evaluation of Usability of Multileaf Collimator for Diagnostic Radiation in Cephalometric Exposure

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S Han

S Han1,2*, S Park2 , K Kim1,2 , S Choi2 , H Jung1,2 , M kim1,2 , Y Ji1,2 , (1) University of Science & Techology,Daejeon, Korea (2) Korea Institute of Radiological and Medical Sciences, Seoul,Korea

Presentations

SU-E-I-49 Sunday 3:00PM - 6:00PM Room: Exhibit Hall

Purpose:
This study evaluated usability of Multileaf collimator (MLC) for diagnostic radiation in cephalometric exposure using optical stimulated luminance dosimeters (OSLDs)

Methods:
The MLC material was made alloy tool steel (SKD-11) and the density of it is 7.89g/m3 that is similar to it of steel (Fe, 7.85 g/m3) and the MLC was attached to general radiography unit (Rex-650R, Listem Inc, Korea) for cephalometric exposure. The OSLDs that used were nanoDotTM Dosimeter (Landauer Inc, Glenwood, USA) and we read out OSLDs with micro star system (Landauer Inc, Glenwood, USA). The Optical annealing system contained fluorescent lamps (Osram lumilux, 24 W, 280 ~780 nm). To measure absorbed dose using OSLDs, was carried out dosimetric characteristics of OSLDs. Based on these, we evaluated dose reduction of critical organ (Eyes, Thyroids) with MLC in cephalometric exposure

Results:
The dosimetric characteristics were following that batch homogeneity was 1.21% and reproducibility was 0.96% of the coefficient of variation The linearity was that the correlation of between dose and count was fitted by linear function (dose,mGy = 0.00029 Χ Count, R2 =0.997). The range of angular dependence was from -3.6% to 3.7% variation when each degree was normalized by zero degree.
The organ dose of Rt. eye, Lt eye, thyroids were 77.8 μGy, 337.0 μGy, 323.1μGy, respectively in open field and the dose reduction of organ dose was 10.6%(8.3μGy), 12.4 %(42 μGy), 87.1%(281.4μGy) with MLC

Conclusion:
We certified dose reduction of organ dose in cephalometric exposure. The dose reduction of Eye was 11% because of reduction of field size and it of thyroids was 87% by primary beam shielding



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