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氡肺剂量测定中不均匀活性分布和气道几何形状对细胞剂量的影响。

Effect of inhomogeneous activity distributions and airway geometry on cellular doses in radon lung dosimetry.

作者信息

Szoke István, Balásházy Imre, Farkas Arpád, Hofmann Werner

机构信息

KFKI Atomic Energy Research Institute, PO Box 49, 1525 Budapest, Hungary.

出版信息

Radiat Prot Dosimetry. 2007;127(1-4):68-72. doi: 10.1093/rpd/ncm253. Epub 2007 Jun 8.

Abstract

The human tracheobronchial system has a very complex structure including cylindrical airway ducts connected by airway bifurcation units. The deposition of the inhaled aerosols within the airways exhibits a very inhomogeneous pattern. The formation of deposition hot spots near the carinal ridge has been confirmed by experimental and computational fluid and particle dynamics (CFPD) methods. In spite of these observations, current radon lung dosimetry models apply infinitely long cylinders as models of the airway system and assume uniform deposition of the inhaled radon progenies along the airway walls. The aim of this study is to investigate the effect of airway geometry and non-uniform activity distributions within bronchial bifurcations on cellular dose distributions. In order to answer these questions, the nuclear doses of the bronchial epithelium were calculated in three different irradiation situations. (1) First, CFPD methods were applied to calculate the distribution of the deposited alpha-emitting nuclides in a numerically constructed idealised airway bifurcation. (2) Second, the deposited radionuclides were randomly distributed along the surface of the above-mentioned geometry. (3) Finally, calculations were made in cylindrical geometries corresponding to the parent and daughter branches of the bifurcation geometry assuming random nuclide activity distribution. In all three models, the same 218Po and 214Po surface activities per tissue volumes were assumed. Two conclusions can be drawn from this analysis: (i) average nuclear doses are very similar in all three cases (minor differences can be attributed to differences in the linear energy transfer (LET) spectra) and (ii) dose distributions are significantly different in all three cases, with the highest doses at the carinal ridge in case 3.

摘要

人类气管支气管系统具有非常复杂的结构,包括由气道分叉单元相连的圆柱形气道管道。吸入气溶胶在气道内的沉积呈现出非常不均匀的模式。隆突嵴附近沉积热点的形成已通过实验以及计算流体与颗粒动力学(CFPD)方法得到证实。尽管有这些观察结果,但当前的氡肺剂量测定模型将无限长的圆柱体用作气道系统模型,并假定吸入的氡子体沿气道壁均匀沉积。本研究的目的是调查气道几何形状以及支气管分叉内不均匀活度分布对细胞剂量分布的影响。为了回答这些问题,在三种不同的照射情况下计算了支气管上皮的核剂量。(1)首先,应用CFPD方法计算数值构建的理想化气道分叉中沉积的发射α粒子核素的分布。(2)其次,将沉积的放射性核素沿上述几何形状的表面随机分布。(3)最后,在对应于分叉几何形状的父支和子支的圆柱形几何形状中进行计算,假定核素活度随机分布。在所有三个模型中,假定每个组织体积具有相同的218Po和214Po表面活度。从该分析中可以得出两个结论:(i)在所有三种情况下平均核剂量非常相似(微小差异可归因于线能量转移(LET)谱的差异),并且(ii)在所有三种情况下剂量分布显著不同,在情况3中隆突嵴处的剂量最高。

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