放射治疗x射线的皮肤剂量:能量的影响。

Australasian radiology Pub Date : 1997-05-01
M J Butson, J N Mathur, P E Metcalfe
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引用次数: 0

摘要

巨压光子光束的保肤特性受到电子污染的损害。由于这种电子污染,高能束不一定产生较低的表面和基底细胞层剂量。对于5 × 5 cm的场尺寸,6 MVp和18 MVp x射线束的表面剂量分别为其各自最大剂量的10%和7%。然而,在场尺寸为40 x 40 cm时,6 MVp和18 MVp光束的表面剂量百分比均为42%。引入诸如块盘之类的光束修饰装置可以进一步降低高能光子光束的保肤优势。使用10毫米有机玻璃块托盘,5 × 5厘米场尺寸的6个MVp和18个MVp光束的表面剂量分别为10%和8%。在40 × 40 cm处,6束MVp和18束MVp的表面剂量分别为61%和63%。这种趋势在基底细胞层深度处也有体现。当归一化到各自的Dmax值时,在1 mm的深度下,18 MVp光束剂量总是比相同深度下的6 MVp剂量至少小5%。结果表明,更高能量的光子束产生可忽略不计的减少交付剂量的基底细胞层(0.1毫米)。在真皮层(1毫米)只观察到皮肤保留的少量增加,这可以被相反场的出口剂量增加所抵消。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Skin dose from radiotherapy X-ray beams: the influence of energy.

Skin-sparing properties of megavoltage photon beams are compromised by electron contamination. Higher energy beams do not necessarily produce lower surface and basal cell layer doses due to this electron contamination. For a 5 x 5 cm field size the surface doses for 6 MVp and 18 MVp X-ray beams are 10% and 7% of their respective maxima. However, at a field size of 40 x 40 cm the percentage surface dose is 42% for both 6 MVp and 18 MVp beams. The introduction of beam modifying devices such block trays can further reduce the skin-sparing advantages of high energy photon beams. Using a 10 mm perspex block tray, the surface doses for 6 MVp and 18 MVp beams with a 5 x 5 cm field size are 10% and 8%, respectively. At 40 x 40 cm, surface doses are 61% and 63% for 6 MVp and 18 MVp beams, respectively. This trend is followed at the basal cell layer depth. At a depth of 1 mm, 18 MVp beam doses are always at least 5% smaller than 6 MVp doses for the same depth at all field sizes when normalized to their respective Dmax values. Results have shown that higher energy photon beams produce a negligible reduction of the delivered dose to the basal cell layer (0.1 mm). Only a small increase in skin sparing is seen at the dermal layer (1 mm), which can be negated by the increased exit dose from an opposing field.

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