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用于肺部立体定向放射治疗在线图像引导的锥形束计算机断层扫描:定位、验证和分次内肿瘤位置

Cone-beam computed tomography for on-line image guidance of lung stereotactic radiotherapy: localization, verification, and intrafraction tumor position.

作者信息

Purdie Thomas G, Bissonnette Jean-Pierre, Franks Kevin, Bezjak Andrea, Payne David, Sie Fanny, Sharpe Michael B, Jaffray David A

机构信息

Department of Radiation Physics, Princess Margaret Hospital, Toronto, ON, Canada.

出版信息

Int J Radiat Oncol Biol Phys. 2007 May 1;68(1):243-52. doi: 10.1016/j.ijrobp.2006.12.022. Epub 2007 Feb 27.

DOI:10.1016/j.ijrobp.2006.12.022
PMID:17331671
Abstract

PURPOSE

Cone-beam computed tomography (CBCT) in-room imaging allows accurate inter- and intrafraction target localization in stereotactic body radiotherapy of lung tumors.

METHODS AND MATERIALS

Image-guided stereotactic body radiotherapy was performed in 28 patients (89 fractions) with medically inoperable Stage T1-T2 non-small-cell lung carcinoma. The targets from the CBCT and planning data set (helical or four-dimensional CT) were matched on-line to determine the couch shift required for target localization. Matching based on the bony anatomy was also performed retrospectively. Verification of target localization was done using either megavoltage portal imaging or CBCT imaging; repeat CBCT imaging was used to assess the intrafraction tumor position.

RESULTS

The mean three-dimensional tumor motion for patients with upper lesions (n = 21) and mid-lobe or lower lobe lesions (n = 7) was 4.2 and 6.7 mm, respectively. The mean difference between the target and bony anatomy matching using CBCT was 6.8 mm (SD, 4.9, maximum, 30.3); the difference exceeded 13.9 mm in 10% of the treatment fractions. The mean residual error after target localization using CBCT imaging was 1.9 mm (SD, 1.1, maximum, 4.4). The mean intrafraction tumor deviation was significantly greater (5.3 mm vs. 2.2 mm) when the interval between localization and repeat CBCT imaging (n = 8) exceeded 34 min.

CONCLUSION

In-room volumetric imaging, such as CBCT, is essential for target localization accuracy in lung stereotactic body radiotherapy. Imaging that relies on bony anatomy as a surrogate of the target may provide erroneous results in both localization and verification.

摘要

目的

锥形束计算机断层扫描(CBCT)室内成像可在肺部肿瘤的立体定向体部放射治疗中实现精确的分次间和分次内靶区定位。

方法与材料

对28例(89个分次)医学上无法手术的T1 - T2期非小细胞肺癌患者进行图像引导的立体定向体部放射治疗。将CBCT图像和计划数据集(螺旋CT或四维CT)中的靶区进行在线匹配,以确定靶区定位所需的治疗床移动。还回顾性地进行了基于骨骼解剖结构的匹配。使用兆伏级门静脉成像或CBCT成像进行靶区定位验证;重复CBCT成像用于评估分次内肿瘤位置。

结果

上叶病变患者(n = 21)和中叶或下叶病变患者(n = 7)的平均三维肿瘤运动分别为4.2 mm和6.7 mm。使用CBCT进行靶区与骨骼解剖结构匹配的平均差异为6.8 mm(标准差,4.9,最大值,30.3);在10%的治疗分次中差异超过13.9 mm。使用CBCT成像进行靶区定位后的平均残余误差为1.9 mm(标准差,1.1,最大值,4.4)。当定位与重复CBCT成像之间的间隔(n = 8)超过34分钟时,分次内肿瘤的平均偏差显著更大(5.3 mm对2.2 mm)。

结论

室内容积成像,如CBCT,对于肺部立体定向体部放射治疗中的靶区定位准确性至关重要。依赖骨骼解剖结构作为靶区替代物的成像在定位和验证中可能会产生错误结果。

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