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一种基于呼吸靶区运动速度和时间的外照射放疗新的内靶区定义。

A novel internal target volume definition based on velocity and time of respiratory target motion for external beam radiotherapy.

机构信息

Department of Medical Physics, Shonan Kamakura General Hospital, 1370-1 Okamoto, Kamakura City, Kanagawa, 247-8533, Japan.

Department of Medical Physics and Engineering, Osaka University Graduate School of Medicine, 1-7 Yamadaoka, Suita-Shi, Osaka, 565-0871, Japan.

出版信息

Radiol Phys Technol. 2024 Dec;17(4):843-853. doi: 10.1007/s12194-024-00837-3. Epub 2024 Sep 13.

DOI:10.1007/s12194-024-00837-3
PMID:39269608
Abstract

This study aimed to develop a novel internal target volume (ITV) definition for respiratory motion targets, considering target motion velocity and time. The proposed ITV was evaluated in respiratory-gated radiotherapy. An ITV modified with target motion velocity and time (ITVvt) was defined as an ITV that includes a target motion based on target motion velocity and time. The target motion velocity was calculated using four-dimensional computed tomography (4DCT) images. The ITVvts were created from phantom and clinical 4DCT images. The phantom 4DCT images were acquired using a solid phantom that moved with a sinusoidal waveform (peak-to-peak amplitudes of 10 and 20 mm and cycles of 2-6 s). The clinical 4DCT images were obtained from eight lung cancer cases. In respiratory-gated radiotherapy, the ITVvt was compared with conventional ITVs for beam times of 0.5-2 s within the gating window. The conventional ITV was created by adding a uniform margin as the maximum motion within the gating window. In the phantom images, the maximum volume difference between the ITVvt and conventional ITV was -81.9%. In the clinical images, the maximum volume difference was -53.6%. Shorter respiratory cycles and longer BTs resulted in smaller ITVvt compared with the conventional ITV. Therefore, the proposed ITVvt plan could be used to reduce treatment volumes and doses to normal tissues.

摘要

本研究旨在开发一种新的内部靶区(ITV)定义,用于考虑目标运动速度和时间的呼吸运动目标。在呼吸门控放射治疗中评估了所提出的 ITV。通过目标运动速度和时间(ITVvt)修改的 ITV 被定义为包括基于目标运动速度和时间的目标运动的 ITV。目标运动速度是使用四维 CT(4DCT)图像计算的。ITVvts 是从体模和临床 4DCT 图像创建的。使用随正弦波移动的实体体模(峰峰值幅度为 10 和 20mm,周期为 2-6s)获得体模 4DCT 图像。临床 4DCT 图像来自 8 例肺癌患者。在呼吸门控放射治疗中,在门控窗口内 0.5-2s 的射束时间内,将 ITVvt 与常规 ITV 进行比较。常规 ITV 通过在门控窗口内添加最大运动的均匀边界来创建。在体模图像中,ITVvt 和常规 ITV 之间的最大体积差异为-81.9%。在临床图像中,最大体积差异为-53.6%。较短的呼吸周期和较长的 BT 导致 ITVvt 与常规 ITV 相比体积较小。因此,所提出的 ITVvt 计划可用于减少治疗体积和正常组织的剂量。

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本文引用的文献

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Does irregular breathing impact on respiratory gated radiation therapy of lung stereotactic body radiation therapy treatments?不规则呼吸是否会影响肺部立体定向体部放射治疗的呼吸门控放射治疗?
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To gate or not to gate - dosimetric evaluation comparing Gated vs. ITV-based methodologies in stereotactic ablative body radiotherapy (SABR) treatment of lung cancer.是否使用门控技术——在肺癌立体定向体部放疗(SABR)中比较基于门控技术与基于 ITV 技术的剂量学评估
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