Implementing Plan of the Day for Cervical Cancer: A Comparison of Target Volume Generation Methods

IF 2.2 Q3 ONCOLOGY
Lei Wang FRCR, Jonathan Mohajer MSc, Helen McNair PhD, Emma Harris PhD, Susan Lalondrelle FRCR, PhD
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引用次数: 0

Abstract

Purpose

Owing to substantial interfraction motion in cervical cancer, plan-of-the-day (PotD) adaptive radiation therapy may be of benefit to patients. Implementation is limited by uncertainty over how to generate the planning target volumes (PTVs). We compared published methods on our own patients.

Methods and Materials

Forty patients each had 3 planning scans with variable bladder filling and daily cone beam computed tomographies (cone beam CTs) during radiation therapy; 5 to 11 cone beam CTs were selected to represent interfraction motion. Clinical target volumes (CTVs) and organs at risk were contoured following EMBRACE-II guidelines. A literature search identified 30 adaptive and nonadaptive solutions to PTV generation, which we applied to our patients. PTV sizes and mean coverage of the daily CTV were determined. For 11 patients, the clinically implemented, subjectively edited plan library was also investigated.

Results

Eleven studies assessed 15 PotD strategies against nonadaptive comparators on a median of 14 patients (range, 9-23). Some PotD approaches applied margin recipes to the CTV on each planning scan, some modeled the CTV against bladder volume, and others applied incremental isotropic margins to the CTV with a single planning scan. Generally, coverage improved as PTV size increased. The fixed isotropic margin required to provide 100% coverage of all patients was 44 mm, with a mean PTV size of 3316 cm3. The PotD strategy with the best coverage was a 2-plan library formed by modeling the CTV against bladder volume with extrapolation; it provided 98% mean coverage with 1419-cm3 mean PTV size. A 3-plan library consisting of the CTV on each planning scan with 10-mm margin provided 96% mean coverage with 1346-cm3 mean PTV size. The clinically implemented solution that employed subjective extrapolation had mean 100% coverage and 1282-cm3 PTV size on the 11-patient subset. Coverage provided by the best nonadaptive strategies was not statistically superior to the best PotD strategy (P = .13), but PTVs were larger (P = .02).

Conclusions

We identified a modeled 2-plan method and a simple 3-plan method, both of which provided excellent coverage with small PTVs compared with nonadaptive strategies.

实施宫颈癌每日计划:目标量生成方法比较
目的由于宫颈癌患者会出现大量的牵引间运动,日计划(PotD)自适应放射治疗可能会使患者受益。但如何生成计划靶区(PTV)的不确定性限制了该方法的实施。我们在自己的患者身上比较了已发表的方法。方法和材料40名患者每人接受了3次不同膀胱充盈度的计划扫描,并在放疗期间接受了每日锥形束计算机断层扫描(锥形束 CT);选择了5到11个锥形束 CT来代表穿刺运动。临床靶体积(CTV)和危险器官的轮廓是根据 EMBRACE-II 指南绘制的。文献检索发现了 30 种生成 PTV 的自适应和非自适应解决方案,我们将其应用于患者。我们确定了 PTV 大小和每日 CTV 的平均覆盖范围。结果7项研究评估了15种PotD策略与非适应性对比策略,中位数为14例患者(范围为9-23例)。有些 PotD 方法在每次计划扫描时对 CTV 采用边缘配方,有些方法根据膀胱容积对 CTV 进行建模,还有一些方法通过单次计划扫描对 CTV 采用增量各向同性边缘。一般来说,随着 PTV 大小的增加,覆盖率也会提高。100%覆盖所有患者所需的固定各向同性边缘为44毫米,平均PTV大小为3316立方厘米。覆盖率最高的 PotD 策略是通过外推法将 CTV 与膀胱容积进行建模而形成的 2 计划库;它的平均覆盖率为 98%,平均 PTV 大小为 1419 立方厘米。由每次计划扫描的 CTV 和 10 毫米边缘组成的 3 计划库提供了 96% 的平均覆盖率和 1346 立方厘米的平均 PTV 大小。采用主观外推法的临床实施方案在 11 名患者子集中的平均覆盖率为 100%,PTV 面积为 1282 立方厘米。最佳非适应性策略提供的覆盖率在统计学上并不优于最佳PotD策略(P = .13),但PTV更大(P = .02)。结论我们发现了一种模型化的2-计划方法和一种简单的3-计划方法,与非适应性策略相比,这两种方法都能提供极佳的覆盖率,且PTV较小。
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来源期刊
Advances in Radiation Oncology
Advances in Radiation Oncology Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
4.60
自引率
4.30%
发文量
208
审稿时长
98 days
期刊介绍: The purpose of Advances is to provide information for clinicians who use radiation therapy by publishing: Clinical trial reports and reanalyses. Basic science original reports. Manuscripts examining health services research, comparative and cost effectiveness research, and systematic reviews. Case reports documenting unusual problems and solutions. High quality multi and single institutional series, as well as other novel retrospective hypothesis generating series. Timely critical reviews on important topics in radiation oncology, such as side effects. Articles reporting the natural history of disease and patterns of failure, particularly as they relate to treatment volume delineation. Articles on safety and quality in radiation therapy. Essays on clinical experience. Articles on practice transformation in radiation oncology, in particular: Aspects of health policy that may impact the future practice of radiation oncology. How information technology, such as data analytics and systems innovations, will change radiation oncology practice. Articles on imaging as they relate to radiation therapy treatment.
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