黄铜补偿器在6MV光子束强度调制放射治疗中的建立因子和衰减系数的实验评估

Q4 Medicine

Journal of the University of Malaya Medical Centre Pub Date : 2017-12-15 DOI:10.22452/JUMMEC.VOL20NO2.4

B. Elnaz, H. Peyman, H. Abbas, G. Raheb, S. Zaker

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引用次数: 1

摘要

引言：最近的补偿器通常应用于IMRT。应用补偿器的精确特性，如厚度、衰减系数和累积因子，对于IMRT计算非常重要。方法：研究了用于6MV光子束的黄铜补偿器，以估计厚度和场大小对IMRT计算的相对影响。检查了各种场大小以及几种补偿器厚度。结果：在10×10cm2～20×20cm2的电场中，有效衰减系数（EAC）的平均降低率为9.94%，随着电场大小的增加，EAC降低。由于场尺寸的增加，EAC的主要降低幅度为9.62%。相对于场尺寸和补偿器厚度，累积因子增加了2%至21.8%。此外，通过增加厚度来增加堆积因子。变化率在24%到48%之间。结论：补偿器厚度和场大小对计算有效衰减系数和建立因子具有重要意义。

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THE EXPERIMENTAL ASSESSMENT OF BUILD UP FACTOR AND ATTENUATION COEFFICIENT OF BRASS COMPENSATOR APPLIED IN INTENSITY-MODULATED RADIATION THERAPY (IMRT) FOR 6MV PHOTON BEAM

Introduction: Recent compensators are commonly applied in IMRT. The precise properties of applied compensators such as thickness, attenuation coefficient and build up factor are intensively important for IMRT calculations. Method: The brass compensator used for 6 MV photon beam was studied to estimate the relative effect of thickness and field size on IMRT calculations. Various field size together with several compensator thicknesses were examined. Result: The average reduction of effective attenuation coefficient (EAC), for the fields of 10×10 cm2 to 20×20 cm2, was 9.94%. By increasing the field size, EAC was decreased. The major reduction of EAC due to increasing field size was found to be 9.62%. The build up factor was increased by 2% to 21.8% respect to field size and compensator thickness. Also, the build up factor was increased by adding up the thickness. The rate of changes ranged from 24% to 48 %. Conclusion: The compensator thickness and field size are significantly important to calculate the effective attenuation coefficient and build up factor.

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来源期刊

Journal of the University of Malaya Medical Centre Medicine-Medicine (all)

CiteScore

0.30

自引率

0.00%

发文量