用于自适应治疗的千伏锥束计算机断层扫描图像的几何和剂量精度:系统回顾。

BJR open Pub Date : 2023-01-01 DOI:10.1259/bjro.20220062
Hussam Jassim, Hassan A Nedaei, Ghazale Geraily, Nooshin Banaee, Ali Kazemian
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引用次数: 1

摘要

目的:概述和荟萃分析用于完成kVCBCT剂量计算和自动分割的不同技术。方法:对符合条件的研究进行系统回顾和荟萃分析,证明基于kvcbct的剂量计算和不同肿瘤特征的自动轮廓。对所收集结果的三个亚组(头颈部、胸部和腹部)的γ分析和骰子相似系数(DSC)评分进行meta分析。结果:经文献梳理(n = 1008), 52篇论文被纳入系统评价。9项剂量学研究和11项几何分析研究适合纳入meta分析。使用kVCBCT进行治疗重新计划取决于所使用的方法。形变图像配准(DIR)方法的剂量学误差小(≤2%),γ合格率(≥90%)和DSC(≥0.8)。Hounsfield Unit (HU)覆盖和基于校准曲线的方法也获得了令人满意的小剂量学误差(≤2%)和γ通过率(≥90%),但由于它们对供应商特定的kVCBCT图像质量变化的敏感性,它们容易出现误差。结论:应该进行大量的患者队列来验证实现低水平剂量学和几何误差的方法。在报告kVCBCT时应建立质量指南,其中包括报告校正后kVCBCT质量的商定指标,并定义在获得用于适应性放疗的kVCBCT图像时使用的新部位特定标准化成像方案。知识进展:本文综述了使kVCBCT在基于kVCBCT的适应性放疗中可行的方法,简化了患者的路径,减少了患者的伴随成像剂量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The geometric and dosimetric accuracy of kilovoltage cone beam computed tomography images for adaptive treatment: a systematic review.

Objectives: To provide an overview and meta-analysis of different techniques adopted to accomplish kVCBCT for dose calculation and automated segmentation.

Methods: A systematic review and meta-analysis were performed on eligible studies demonstrating kVCBCT-based dose calculation and automated contouring of different tumor features. Meta-analysis of the performance was accomplished on the reported γ analysis and dice similarity coefficient (DSC) score of both collected results as three subgroups (head and neck, chest, and abdomen).

Results: After the literature scrutinization (n = 1008), 52 papers were recognized for the systematic review. Nine studies of dosimtric studies and eleven studies of geometric analysis were suitable for inclusion in meta-analysis. Using kVCBCT for treatment replanning depends on a method used. Deformable Image Registration (DIR) methods yielded small dosimetric error (≤2%), γ pass rate (≥90%) and DSC (≥0.8). Hounsfield Unit (HU) override and calibration curve-based methods also achieved satisfactory yielded small dosimetric error (≤2%) and γ pass rate ((≥90%), but they are prone to error due to their sensitivity to a vendor-specific variation in kVCBCT image quality.

Conclusions: Large cohorts of patients ought to be undertaken to validate methods achieving low levels of dosimetric and geometric errors. Quality guidelines should be established when reporting on kVCBCT, which include agreed metrics for reporting on the quality of corrected kVCBCT and defines protocols of new site-specific standardized imaging used when obtaining kVCBCT images for adaptive radiotherapy.

Advances in knowledge: This review gives useful knowledge about methods making kVCBCT feasible for kVCBCT-based adaptive radiotherapy, simplifying patient pathway and reducing concomitant imaging dose to the patient.

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