Intrafractional motion and dosimetric analysis in prostate stereotactic body radiation therapy with auto beam hold technique.

IF 1.3 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Biomedical Physics & Engineering Express Pub Date : 2024-06-26 DOI:10.1088/2057-1976/ad4b1d

Renee F Cattell, An Ting Hsia, Jinkoo Kim, Xin Qian, Siming Lu, Alexander Slade, Kartik Mani, Samuel Ryu, Zhigang Xu

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Abstract

Objective: To summarize our institutional prostate stereotactic body radiation therapy (SBRT) experience using auto beam hold (ABH) technique for intrafractional prostate motion and assess ABH tolerance of 10-millimeter (mm) diameter.Approach: Thirty-two patients (160 fractions) treated using ABH technique between 01/2018 and 03/2021 were analyzed. During treatment, kV images were acquired every 20-degree gantry rotation to visualize 3-4 gold fiducials within prostate to track target motion. If the fiducial center fell outside the tolerance circle (diameter = 10 mm), beam was automatically turned off for reimaging and repositioning. Number of beam holds and couch translational movement magnitudes were recorded. Dosimetric differences from intrafractional motion were calculated by shifting planned isocenter.Main Results: Couch movement magnitude (mean ± SD) in vertical, longitudinal and lateral directions were -0.7 ± 2.5, 1.4 ± 2.9 and -0.1 ± 0.9 mm, respectively. For most fractions (77.5%), no correction was necessary. Number of fractions requiring one, two, or three corrections were 15.6%, 5.6% and 1.3%, respectively. Of the 49 corrections, couch shifts greater than 3 mm were seen primarily in the vertical (31%) and longitudinal (39%) directions; corresponding couch shifts greater than 5 mm occurred in 2% and 6% of cases. Dosimetrically, 100% coverage decreased less than 2% for clinical target volume (CTV) (-1 ± 2%) and less than 10% for PTV (-10 ± 6%). Dose to bladder, bowel and urethra tended to increase (Bladder: ΔD10%:184 ± 466 cGy, ΔD40%:139 ± 241 cGy, Bowel: ΔD1 cm³:54 ± 129 cGy; ΔD5 cm³:44 ± 116 cGy, Urethra: ΔD0.03 cm³:1 ± 1%). Doses to the rectum tended to decrease (Rectum: ΔD1 cm³:-206 ± 564 cGy, ΔD10%:-97 ± 426 cGy; ΔD20%:-50 ± 251 cGy).Significance: With the transition from conventionally fractionated intensity modulated radiation therapy to SBRT for localized prostate cancer treatment, it is imperative to ensure that dose delivery is spatially accurate for appropriate coverage to target volumes and limiting dose to surrounding organs. Intrafractional motion monitoring can be achieved using triggered imaging to image fiducial markers and ABH to allow for reimaging and repositioning for excessive motion.

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采用自动射束保持技术的前列腺立体定向体放射治疗中的点内运动和剂量学分析。

目的：总结我院前列腺立体定向体放射治疗（SBRT）使用自动射束保持（ABH）技术治疗前列腺分段内移动的经验，并评估直径为10毫米（mm）的ABH耐受性：分析了2018年1月至2021年3月期间使用ABH技术治疗的32例患者（160个分段）。在治疗过程中，每旋转 20 度龙门架就会采集一次 kV 图像，以观察前列腺内的 3-4 个金靶标，从而跟踪目标运动。如果靶标中心位于公差圈（直径 = 10 毫米）之外，光束会自动关闭，以便重新成像和定位。记录光束保持次数和沙发平移幅度。通过移动计划的等中心，计算出分内移动的剂量学差异：坐垫在垂直、纵向和横向的移动幅度（平均值±标度）分别为-0.7±2.5、1.4±2.9和-0.1±0.9毫米。大多数骨折（77.5%）无需校正。需要进行一次、两次或三次矫正的分数分别为 15.6%、5.6% 和 1.3%。在 49 次校正中，坐标偏移超过 3 毫米的情况主要出现在垂直方向（31%）和纵向方向（39%）；相应的坐标偏移超过 5 毫米的情况分别出现在 2% 和 6% 的病例中。从剂量学角度看，100% 覆盖率在临床靶体积（CTV）（-1 ± 2%）和 PTV（-10 ± 6%）方面的下降幅度均小于 2%。膀胱、肠道和尿道的剂量呈上升趋势（膀胱：ΔD10%：184 ± 466 cGy；ΔD40%：139 ± 241 cGy；肠道：ΔD1 cm3：54 ± 129 cGy；ΔD5 cm3：44 ± 116 cGy；尿道：ΔD0.03 cm3：1 ± 1%）。直肠的剂量呈下降趋势（直肠：ΔD1 cm3：-206 ± 564 cGy；ΔD10%：-97 ± 426 cGy；ΔD20%：-50 ± 251 cGy）：随着局部前列腺癌治疗从传统的分次调强放射治疗向 SBRT 过渡，必须确保剂量输送在空间上的准确性，以适当覆盖靶体积并限制对周围器官的剂量。可使用触发成像技术对靶标和 ABH 进行成像，以便对过度移动进行重新成像和定位。

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来源期刊

Biomedical Physics & Engineering Express RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

CiteScore

2.80

自引率

0.00%

发文量

153

期刊介绍： BPEX is an inclusive, international, multidisciplinary journal devoted to publishing new research on any application of physics and/or engineering in medicine and/or biology. Characterized by a broad geographical coverage and a fast-track peer-review process, relevant topics include all aspects of biophysics, medical physics and biomedical engineering. Papers that are almost entirely clinical or biological in their focus are not suitable. The journal has an emphasis on publishing interdisciplinary work and bringing research fields together, encompassing experimental, theoretical and computational work.