Royal Marsden NHS Foundation Trust, Sutton, United Kingdom; Division of Radiotherapy and Imaging, Institute of Cancer Research, Sutton, United Kingdom.
Elekta AB, Stockholm, Sweden.
Int J Radiat Oncol Biol Phys. 2024 Feb 1;118(2):378-389. doi: 10.1016/j.ijrobp.2023.08.051. Epub 2023 Aug 25.
The use of magnetic resonance imaging (MRI) in radiotherapy planning is becoming more widespread, particularly with the emergence of MRI-guided radiotherapy systems. Existing guidelines for defining the prostate bed clinical target volume (CTV) show considerable heterogeneity. This study aimed to establish baseline interobserver variability (IOV) for prostate bed CTV contouring on MRI, develop international consensus guidelines, and evaluate its effect on IOV.
Participants delineated the CTV on 3 MRI scans, obtained from the Elekta Unity MR-Linac, as per their normal practice. Radiation oncologist contours were visually examined for discrepancies, and interobserver comparisons were evaluated against simultaneous truth and performance level estimation (STAPLE) contours using overlap metrics (Dice similarity coefficient and Cohen's kappa), distance metrics (mean distance to agreement and Hausdorff distance), and volume measurements. A literature review of postradical prostatectomy local recurrence patterns was performed and presented alongside IOV results to the participants. Consensus guidelines were collectively constructed, and IOV assessment was repeated using these guidelines.
Sixteen radiation oncologists' contours were included in the final analysis. Visual evaluation demonstrated significant differences in the superior, inferior, and anterior borders. Baseline IOV assessment indicated moderate agreement for the overlap metrics while volume and distance metrics demonstrated greater variability. Consensus for optimal prostate bed CTV boundaries was established during a virtual meeting. After guideline development, a decrease in IOV was observed. The maximum volume ratio decreased from 4.7 to 3.1 and volume coefficient of variation reduced from 40% to 34%. The mean Dice similarity coefficient rose from 0.72 to 0.75 and the mean distance to agreement decreased from 3.63 to 2.95 mm.
Interobserver variability in prostate bed contouring exists among international genitourinary experts, although this is lower than previously reported. Consensus guidelines for MRI-based prostate bed contouring have been developed, and this has resulted in an improvement in contouring concordance. However, IOV persists and strategies such as an education program, development of a contouring atlas, and further refinement of the guidelines may lead to additional improvements.
磁共振成像(MRI)在放射治疗计划中的应用越来越广泛,特别是随着 MRI 引导放射治疗系统的出现。现有的定义前列腺床临床靶区(CTV)的指南显示出相当大的异质性。本研究旨在确定 MRI 前列腺床 CTV 勾画的基线观察者间变异性(IOV),制定国际共识指南,并评估其对 IOV 的影响。
参与者根据其正常实践,在 Elekta Unity MR-Linac 上勾画 3 个 MRI 扫描的 CTV。对放射肿瘤学家的轮廓进行了差异的视觉检查,并使用重叠度量(Dice 相似系数和 Cohen's kappa)、距离度量(平均一致距离和 Hausdorff 距离)和体积测量值,对观察者间比较与同时真实和性能水平估计(STAPLE)轮廓进行了评估。对根治性前列腺切除术后局部复发模式进行了文献回顾,并与 IOV 结果一起呈现给参与者。共同构建了共识指南,并使用这些指南重复进行了 IOV 评估。
最终分析纳入了 16 名放射肿瘤学家的轮廓。视觉评估显示,在上、下和前边界存在显著差异。基线 IOV 评估表明,重叠度量具有中等一致性,而体积和距离度量显示出更大的变异性。在虚拟会议上确定了最佳前列腺床 CTV 边界的共识。在指南制定后,观察到 IOV 下降。最大体积比从 4.7 降至 3.1,体积变异系数从 40%降至 34%。平均 Dice 相似系数从 0.72 上升到 0.75,平均一致距离从 3.63 下降到 2.95mm。
国际泌尿生殖专家在前列腺床轮廓勾画方面存在观察者间变异性,但低于先前报道。已经制定了基于 MRI 的前列腺床轮廓勾画的共识指南,这导致了轮廓一致性的提高。然而,IOV 仍然存在,例如教育计划、轮廓图谱的开发以及指南的进一步细化等策略可能会带来进一步的改进。
