各种肝 SBRT 放射生物模型中，靶区剂量异质性对 TCP 和 NTCP 的影响：不同等剂量处方策略。

Impact of dose heterogeneity in target on TCP and NTCP for various radiobiological models in liver SBRT: different isodose prescription strategy.

机构信息

Centre for Medical Physics, Panjab University, Chandigarh, India.

Department of Radiation Oncology, Institute of Liver and Biliary Sciences, New Delhi, India.

出版信息

Biomed Phys Eng Express. 2021 Jan 30;7(1):015020. doi: 10.1088/2057-1976/abd3f0.

DOI:10.1088/2057-1976/abd3f0

PMID:33522499

Abstract

INTRODUCTION

The impact of dose heterogeneity within the tumor on TCP and NTCP was studied using various radiobiological models. The effect of the degree of heterogeneity index (HI) on TCP was also analyzed.

MATERIALS AND METHODS

Thirty-seven pre-treated liver SBRT cases were included in this study. Two different kinds of treatment techniques were employed. In both arms, the prescribed dose was received by 95% of the PTV. Initially, the inhomogeneous treatment plans (IHTP) were made in which the spatial change of dose within the PTV was high and the maximum dose within the PTV can go up to 160%. Subsequently, in another arm, homogeneous treatment plans (HTP) were generated in which PTV was covered with the same prescription isodose and the maximum dose can go up to 120%. As per RTOG 1112, all organs at risk (OAR's) were considered while optimization of the treatment plans. TCP was calculated using the Niemierko and Poisson model. NTCP was calculated using the Niemierko and LKB fractionated model.

RESULTS

For the IHTP, TCP was decreasing as 'a' value decreased in the Niemierko model whereas, for HTP, TCP was found to be the same. NTCP of the normal liver was less in IHTP as compared to HTP, and the Niemierko model overestimates the NTCP as compared to LKB fractionated model. NTCP for all other OAR's was <1% in both kinds of treatment plans.

CONCLUSION

IHTP is found to be clinically better than HTP because NTCP of the normal liver was significantly less and TCP was more for certain 'a' values of the Niemierko model and the Poisson model. There is not any effect of HI on TCP was observed. Advances in knowledge: IHTP could be used clinically because of the dose-escalation and subsequently, leads to an increase in the TCP.

摘要

简介

本研究使用各种放射生物学模型，探讨肿瘤内剂量异质性对 TCP 和 NTCP 的影响。还分析了不均匀性指数（HI）程度对 TCP 的影响。

材料与方法

本研究纳入 37 例经预处理的肝脏 SBRT 病例。采用两种不同的治疗技术。在两支手臂中，95%的 PTV 接受了规定剂量。首先，制作不均匀治疗计划（IHTP），其中 PTV 内的剂量空间变化较大，PTV 内的最大剂量可达 160%。随后，在另一个手臂中，生成均匀治疗计划（HTP），其中 PTV 被覆盖相同的处方等剂量，最大剂量可达 120%。根据 RTOG 1112，在优化治疗计划时，所有危及器官（OAR）均被考虑在内。使用 Niemierko 和 Poisson 模型计算 TCP。使用 Niemierko 和 LKB 分割模型计算 NTCP。

结果

对于 IHTP，Niemierko 模型中“a”值降低时 TCP 降低，而对于 HTP，TCP 则保持不变。与 HTP 相比，IHTP 中正常肝脏的 NTCP 较低，与 LKB 分割模型相比，Niemierko 模型高估了 NTCP。两种治疗计划中，所有其他 OAR 的 NTCP 均<1%。

结论

IHTP 被认为优于 HTP，因为在特定的 Niemierko 模型和 Poisson 模型的“a”值下，正常肝脏的 NTCP 显著降低，TCP 更高。未观察到 HI 对 TCP 的影响。

知识进展

IHTP 可在临床上使用，因为剂量递增，随后导致 TCP 增加。

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各种肝 SBRT 放射生物模型中，靶区剂量异质性对 TCP 和 NTCP 的影响：不同等剂量处方策略。

Impact of dose heterogeneity in target on TCP and NTCP for various radiobiological models in liver SBRT: different isodose prescription strategy.

机构信息

出版信息

INTRODUCTION

MATERIALS AND METHODS

RESULTS

CONCLUSION

简介

材料与方法

结果

结论

知识进展

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