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使用切线野结合深吸气屏气(DIBH)治疗乳腺癌患者的受照肺体积和肺质量的定量评估。

Quantitative assessment of irradiated lung volume and lung mass in breast cancer patients treated with tangential fields in combination with deep inspiration breath hold (DIBH).

机构信息

University Clinic of Therapeutic Radiology and Oncology, Medical University of Graz, Graz, Austria.

出版信息

Strahlenther Onkol. 2010 Mar;186(3):157-62. doi: 10.1007/s00066-010-2064-y. Epub 2010 Feb 22.

DOI:10.1007/s00066-010-2064-y
PMID:20165819
Abstract

PURPOSE

Comparison of the amount of irradiated lung tissue volume and mass in patients with breast cancer treated with an optimized tangential-field technique with and without a deep inspiration breath-hold (DIBH) technique and its impact on the normal-tissue complication probability (NTCP).

MATERIAL AND METHODS

Computed tomography datasets of 60 patients in normal breathing (NB) and subsequently in DIBH were compared. With a Real-Time Position Management Respiratory Gating System (RPM), anteroposterior movement of the chest wall was monitored and a lower and upper threshold were defined. Ipsilateral lung and a restricted tangential region of the lung were delineated and the mean and maximum doses calculated. Irradiated lung tissue mass was computed based on density values. NTCP for lung was calculated using a modified Lyman-Kutcher-Burman (LKB) model.

RESULTS

Mean dose to the ipsilateral lung in DIBH versus NB was significantly reduced by 15%. Mean lung mass calculation in the restricted area receiving ≤ 20 Gy (M(20)) was reduced by 17% in DIBH but associated with an increase in volume. NTCP showed an improvement in DIBH of 20%. The correlation of individual breathing amplitude with NTCP proved to be independent.

CONCLUSION

The delineation of a restricted area provides the lung mass calculation in patients treated with tangential fields. DIBH reduces ipsilateral lung dose by inflation so that less tissue remains in the irradiated region and its efficiency is supported by a decrease of NTCP.

摘要

目的

比较优化切线野技术治疗乳腺癌患者与应用深吸气屏气(DIBH)技术治疗的患者的肺受照组织体积和质量,及其对正常组织并发症概率(NTCP)的影响。

材料与方法

比较了 60 例患者在自然呼吸(NB)和随后 DIBH 时的 CT 数据集。采用实时位置管理呼吸门控系统(RPM),监测胸壁前后运动,并定义下限和上限阈值。勾画同侧肺和受限的肺切线区域,并计算平均和最大剂量。根据密度值计算受照肺组织质量。使用改良的 Lyman-Kutcher-Burman(LKB)模型计算肺的 NTCP。

结果

DIBH 与 NB 相比,同侧肺的平均剂量显著降低了 15%。DIBH 时受限区域(接收到的剂量≤20Gy 的区域)的平均肺质量计算值降低了 17%,但体积增加。NTCP 显示 DIBH 改善了 20%。个体呼吸幅度与 NTCP 的相关性被证明是独立的。

结论

受限区域的勾画提供了应用切线野治疗的患者的肺质量计算。DIBH 通过充气减少同侧肺剂量,从而使更多的组织保留在照射区域之外,其效率通过降低 NTCP 得到支持。

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