115例儿童癌症治疗患者中，第二原发癌部位相对于照射体积的频率分布。

Frequency distribution of second solid cancer locations in relation to the irradiated volume among 115 patients treated for childhood cancer.

作者信息

Diallo Ibrahima, Haddy Nadia, Adjadj Elisabeth, Samand Akhtar, Quiniou Eric, Chavaudra Jean, Alziar Iannis, Perret Nathalie, Guérin Sylvie, Lefkopoulos Dimitri, de Vathaire Florent

机构信息

U605 Institut National de la Santé et de la Recherche Médicale, Villejuif, France.

出版信息

Int J Radiat Oncol Biol Phys. 2009 Jul 1;74(3):876-83. doi: 10.1016/j.ijrobp.2009.01.040. Epub 2009 Apr 20.

DOI:10.1016/j.ijrobp.2009.01.040

PMID:19386434

Abstract

PURPOSE

To provide better estimates of the frequency distribution of second malignant neoplasm (SMN) sites in relation to previous irradiated volumes, and better estimates of the doses delivered to these sites during radiotherapy (RT) of the first malignant neoplasm (FMN).

METHODS AND MATERIALS

The study focused on 115 patients who developed a solid SMN among a cohort of 4581 individuals. The homemade software package Dos_EG was used to estimate the radiation doses delivered to SMN sites during RT of the FMN. Three-dimensional geometry was used to evaluate the distances between the irradiated volume, for RT delivered to each FMN, and the site of the subsequent SMN.

RESULTS

The spatial distribution of SMN relative to the irradiated volumes in our cohort was as follows: 12% in the central area of the irradiated volume, which corresponds to the planning target volume (PTV), 66% in the beam-bordering region (i.e., the area surrounding the PTV), and 22% in regions located more than 5 cm from the irradiated volume. At the SMN site, all dose levels ranging from almost zero to >75 Gy were represented. A peak SMN frequency of approximately 31% was identified in volumes that received <2.5 Gy.

CONCLUSION

A greater volume of tissues receives low or intermediate doses in regions bordering the irradiated volume with modern multiple-beam RT arrangements. These results should be considered for risk-benefit evaluations of RT.

摘要

目的

更准确地估计与先前照射体积相关的第二原发性恶性肿瘤（SMN）部位的频率分布，并更准确地估计在第一原发性恶性肿瘤（FMN）放疗（RT）期间这些部位所接受的剂量。

方法和材料

该研究聚焦于4581名个体队列中发生实体SMN的115名患者。使用自制软件包Dos_EG来估计FMN放疗期间SMN部位所接受的辐射剂量。利用三维几何结构评估针对每个FMN进行放疗时照射体积与后续SMN部位之间的距离。

结果

在我们的队列中，SMN相对于照射体积的空间分布如下：12%位于照射体积的中心区域，即计划靶体积（PTV）；66%位于射野边缘区域（即PTV周围的区域）；22%位于距离照射体积超过5 cm的区域。在SMN部位，呈现出从几乎零到>75 Gy的所有剂量水平。在接受<2.5 Gy的体积中，SMN频率峰值约为31%。

结论

在现代多野RT方案中，在与照射体积相邻的区域有更大体积的组织接受低剂量或中等剂量照射。在进行RT的风险效益评估时应考虑这些结果。

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115例儿童癌症治疗患者中，第二原发癌部位相对于照射体积的频率分布。

Frequency distribution of second solid cancer locations in relation to the irradiated volume among 115 patients treated for childhood cancer.

作者信息

机构信息

出版信息

PURPOSE

METHODS AND MATERIALS

RESULTS

CONCLUSION

目的

方法和材料

结果

结论

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