乳腺癌放疗后放射性肺炎：使用相对序列模型分析并发症概率

Radiation pneumonitis after breast cancer irradiation: analysis of the complication probability using the relative seriality model.

作者信息

Gagliardi G, Bjöhle J, Lax I, Ottolenghi A, Eriksson F, Liedberg A, Lind P, Rutqvist L E

机构信息

Department of Hospital Physics, Karolinska Hospital, Stockholm, Sweden.

出版信息

Int J Radiat Oncol Biol Phys. 2000 Jan 15;46(2):373-81. doi: 10.1016/s0360-3016(99)00420-4.

DOI:10.1016/s0360-3016(99)00420-4

PMID:10661344

Abstract

BACKGROUND

Toxicity of the respiratory system is quite common after radiotherapy of thoracic tumors; breast cancer patients represent one of the groups for which there is also a long expected survival. The quantification of lung tissue response to irradiation is important in designing treatments associated with a minimum of complications and maximum tumor control.

METHODS

The study population consisted of 68 patients who received irradiation for breast cancer at Stage II. Radiation pneumonitis was retrospectively assessed on the basis of clinical symptoms and radiological findings. For each patient, a measure of the exposure (i.e., the lung dose-volume histogram [DVH]) and a measure of the outcome was available. Based on these data, a maximum likelihood fitting to the relative seriality model was performed. The uncertainties of the model parameters were calculated and their impact on the dose-response curve was studied. The optimum parameter set was then applied to 5 other patient groups treated for breast cancer, and the normal tissue complication probability (NTCP) was calculated. Each group was individuated by the radiotherapy treatment technique used; the dose distribution in the lung was described by a mean DVH and the incidence of radiation pneumonitis in each group was known. Lung radiosensitivity was assumed to be homogeneous through all of the calculations.

RESULTS

The relative seriality model could describe the dataset. The volume effect was found to be relevant in the description of radiation pneumonitis. Age was found to be associated with increased risk of radiation pneumonitis. Two distinct dose-response curves were obtained by splitting the group according to age. The impact of the parameter uncertainties on the dose-response curve was quite large. The parameter set determined could be used predictively on 3 of the 5 patient groups.

CONCLUSION

The complication data could be modeled with the relative seriality model. However, further independent datasets, classified according to the same endpoint, must be analyzed before introducing NTCP modeling in clinical practice.

摘要

背景

胸部肿瘤放疗后呼吸系统毒性相当常见；乳腺癌患者是预期生存期也较长的群体之一。量化肺组织对放疗的反应对于设计并发症最少且肿瘤控制最大化的治疗方案很重要。

方法

研究人群包括68例接受II期乳腺癌放疗的患者。根据临床症状和放射学检查结果对放射性肺炎进行回顾性评估。对于每位患者，可获得暴露量的测量值（即肺剂量体积直方图[DVH]）和结局的测量值。基于这些数据，对相对串联性模型进行最大似然拟合。计算模型参数的不确定性，并研究其对剂量反应曲线的影响。然后将最佳参数集应用于另外5个接受乳腺癌治疗的患者组，并计算正常组织并发症概率（NTCP）。每个组通过所使用的放射治疗技术来区分；用平均DVH描述肺内的剂量分布，并且已知每组放射性肺炎的发生率。在所有计算中均假定肺放射敏感性是均匀的。

结果

相对串联性模型可以描述该数据集。发现体积效应在放射性肺炎的描述中具有相关性。发现年龄与放射性肺炎风险增加相关。根据年龄将该组分开，获得了两条不同的剂量反应曲线。参数不确定性对剂量反应曲线的影响相当大。所确定的参数集可用于对5个患者组中的3个进行预测。

结论

并发症数据可以用相对串联性模型进行建模。然而，在将NTCP建模引入临床实践之前，必须分析更多根据相同终点分类的独立数据集。

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乳腺癌放疗后放射性肺炎：使用相对序列模型分析并发症概率

Radiation pneumonitis after breast cancer irradiation: analysis of the complication probability using the relative seriality model.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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