Sroka Martyna, Reguła Jakub, Lobodziec Włodzimierz
Department of Radiotherapy, Stanisław Leszczyński Memorial Hospital, Katowice, Poland.
Rep Pract Oncol Radiother. 2010 Nov 4;15(6):161-4. doi: 10.1016/j.rpor.2010.09.003. eCollection 2010.
The aim of the paper is to examine the relation between the increase of the photon dose in water in the region of electronic disequilibrium - so-called build-up region - and the distance of the bolus from the water surface for the applied parameters of X-ray beams.
PDD measurements were carried out using the plane-parallel ionization chamber Markus in the automatic water phantom IBA BluePhantom with OmniPro-Accept V7 (IBA Dosimetry GmbH, Schwarzenbruck, Germany). All measurements were performed for different field sizes and for 6 MV and 15 MV X-ray beams, respectively. A water-equivalent RW3 slab (Goettingen White Water) produced by PTW was used as a bolus.
Placing a bolus in an irradiated field changes the shape of the PDD curve in the build-up region in comparison with the one obtained for an open field. All results has been inserted in tables and figures.
The closer the bolus is to the water surface, the smaller the depth of the maximum dose in the phantom for all investigated fields and energies. The changes in the build-up region are important, even if the bolus does not touch the surface of the water phantom. The influence of the bolus can be ignored when the bolus-surface distance equals 25 cm for 6MV X-ray beams and 39 cm for 15 MV X-ray beams.
本文旨在研究在电子非平衡区域(即所谓的积累区)水中光子剂量的增加与针对所应用的X射线束参数的 bolus 离水面距离之间的关系。
使用 Markus 平面平行电离室在配备 OmniPro-Accept V7 的 IBA 自动水模体(IBA Dosimetry GmbH,德国施瓦岑布吕克)中进行百分深度剂量(PDD)测量。所有测量分别针对不同的射野尺寸以及6MV和15MV的X射线束进行。由PTW生产的水等效RW3平板(哥廷根白水)用作 bolus。
与开野相比,在照射野中放置 bolus 会改变积累区中PDD曲线的形状。所有结果已列入表格和图表中。
对于所有研究的射野和能量,bolus 离水面越近,模体中最大剂量的深度越小。即使 bolus 未接触水模体表面,积累区的变化也很重要。对于6MV X射线束,当 bolus - 表面距离等于25cm,对于15MV X射线束,当 bolus - 表面距离等于39cm时,bolus 的影响可以忽略不计。