Department of Radiation Oncology, Taussig Cancer Institute, Cleveland Clinic, Cleveland, Ohio, USA.
J Appl Clin Med Phys. 2023 Sep;24(9):e14045. doi: 10.1002/acm2.14045. Epub 2023 May 22.
To introduce a new technique for online breath-hold verification for liver stereotactic body radiation therapy (SBRT) based on kilovoltage-triggered imaging and liver dome positions.
Twenty-five liver SBRT patients treated with deep inspiration breath-hold were included in this IRB-approved study. To verify the breath-hold reproducibility during treatment, a KV-triggered image was acquired at the beginning of each breath-hold. The liver dome position was visually compared with the expected upper/lower liver boundaries created by expanding/contracting the liver contour 5 mm in the superior-inferior direction. If the liver dome was within the boundaries, delivery continued; otherwise, beam was held manually, and the patient was instructed to take another breath-hold until the liver dome fell within boundaries. The liver dome was delineated on each triggered image. The mean distance between the delineated liver dome to the projected planning liver contour was defined as liver dome position error e . The mean and maximum e of each patient were compared between no breath-hold verification (all triggered images) and with online breath-hold verification (triggered images without beam-hold).
Seven hundred thirteen breath-hold triggered images from 92 fractions were analyzed. For each patient, an average of 1.5 breath-holds (range 0-7 for all patients) resulted in beam-hold, accounting for 5% (0-18%) of all breath-holds; online breath-hold verification reduced the mean e from 3.1 mm (1.3-6.1 mm) to 2.7 mm (1.2-5.2 mm) and the maximum e from 8.6 mm (3.0-18.0 mm) to 6.7 mm (3.0-9.0 mm). The percentage of breath-holds with e >5 mm was reduced from 15% (0-42%) without breath-hold verification to 11% (0-35%) with online breath-hold verification. online breath-hold verification eliminated breath-holds with e >10 mm, which happened in 3% (0-17%) of all breath-holds.
It is clinically feasible to monitor the reproducibility of each breath-hold during liver SBRT treatment using triggered images and liver dome. Online breath-hold verification improves the treatment accuracy for liver SBRT.
介绍一种基于千伏触发成像和肝顶位置的新的在线屏气验证技术,用于肝脏立体定向体部放射治疗(SBRT)。
本研究为 IRB 批准的回顾性研究,共纳入 25 例接受深吸气屏气治疗的肝脏 SBRT 患者。为了验证治疗过程中的屏气重复性,在每次屏气开始时采集千伏触发图像。通过上下方向扩张/收缩肝轮廓 5mm 来创建预期的肝上/下界,然后对肝顶位置进行视觉比较。如果肝顶在边界内,则继续进行治疗;否则,手动暂停射线,并指导患者再次屏气,直到肝顶落入边界内。在每个触发图像上勾画肝顶。定义勾画的肝顶到计划肝轮廓的投影之间的平均距离为肝顶位置误差 e 。比较了无屏气验证(所有触发图像)和在线屏气验证(无射线暂停的触发图像)时每位患者的平均和最大 e 值。
分析了 92 个分次的 713 个屏气触发图像。对于每位患者,平均有 1.5 个(所有患者范围为 0-7)屏气导致射线暂停,占所有屏气的 5%(0-18%);在线屏气验证将平均 e 值从 3.1mm(1.3-6.1mm)降低到 2.7mm(1.2-5.2mm),最大 e 值从 8.6mm(3.0-18.0mm)降低到 6.7mm(3.0-9.0mm)。无屏气验证时 e 值>5mm 的屏气比例为 15%(0-42%),而在线屏气验证时为 11%(0-35%)。在线屏气验证消除了 e 值>10mm 的屏气,这在所有屏气中占 3%(0-17%)。
使用触发图像和肝顶监测肝脏 SBRT 治疗过程中每个屏气的重复性在临床上是可行的。在线屏气验证可提高肝脏 SBRT 的治疗精度。
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