Azienda USL-IRCCS di Reggio Emilia, Medical Physics Unit, Department of Advanced Technology, Reggio Emilia, Italy.
Azienda Ospedaliero-Universitaria di Modena, Medical Physics Unit, Modena, Italy.
Phys Med. 2024 Oct;126:104823. doi: 10.1016/j.ejmp.2024.104823. Epub 2024 Sep 26.
Lattice radiotherapy (LRT) is a three dimensional (3D) implementation of spatially fractionated radiation therapy, based on regular spatial distribution of high dose spheres (vertices) inside the target. Due to tumour shape heterogeneity, finding the best lattice arrangement is not trivial. The aim of this study was to develop the LatticeOpt tool to generate the best lattice structures on clinical cases for treatment planning.
Developed in MATLAB, LatticeOpt finds the 3D-spatial configurations that maximize the number of vertices within the gross target volume (GTV). If organs at risk (OARs) are considered, it chooses the solution that minimizes the overlapping volume histograms (OVH). Otherwise, the lattice structure with the minimum Hausdorff distance between vertices and GTV boundary is chosen to avoid unpopulated regions. Different lattice structures were created for 20 patients, with (OVHopt) and without (OVHunopt) OVH minimization. Imported into TPS (Eclipse, Varian), corresponding plans were generated and evaluated in terms of OAR mean and maximum doses, GTV vertex coverage and dose gradients, as well as pre-clinical plan dosimetry.
Plans based on an optimized lattice structure (OVHopt, OVHunopt) had similar dose distributions in terms of vertex coverage and gradient index score. OAR sparing was observed in all patients, with a 4 % and 9 % difference for mean and max dose (both p-values <0.01), respectively. The best vertices dimensions and their relative distances were patient dependent.
LatticeOpt was able to reduce the time-consuming procedures of LRT, as well as to achieve standardized and reproducible results, useful for multicentre studies.
晶格放疗(LRT)是一种基于靶区内高剂量球体(顶点)规则空间分布的三维(3D)分割放疗方法。由于肿瘤形状的异质性,找到最佳的晶格排列并非易事。本研究的目的是开发 LatticeOpt 工具,以便为治疗计划在临床病例上生成最佳的晶格结构。
LatticeOpt 是在 MATLAB 中开发的,它可以找到使大体肿瘤靶区(GTV)内顶点数量最大化的 3D 空间配置。如果考虑到危及器官(OARs),则选择重叠体积直方图(OVH)最小的解决方案。否则,选择与 GTV 边界之间顶点距离最小的晶格结构,以避免未填充区域。为 20 名患者创建了不同的晶格结构,包括考虑 OVH(OVHopt)和不考虑 OVH(OVHunopt)的情况。将其导入 TPS(Eclipse,Varian),并根据 OAR 平均剂量和最大剂量、GTV 顶点覆盖率和剂量梯度以及临床前计划剂量学来评估相应的计划。
基于优化晶格结构(OVHopt、OVHunopt)的计划在顶点覆盖率和梯度指数评分方面具有相似的剂量分布。在所有患者中都观察到了 OAR 保护,平均剂量和最大剂量分别有 4%和 9%的差异(均 p 值 <0.01)。最佳顶点尺寸及其相对距离取决于患者。
LatticeOpt 能够减少 LRT 的耗时程序,实现标准化和可重复的结果,这对多中心研究很有用。
