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一种基于 CBCT 引导的环形机架在线自适应放疗系统的头颈部治疗计划策略。

A head and neck treatment planning strategy for a CBCT-guided ring-gantry online adaptive radiotherapy system.

机构信息

Department of Radiation Oncology, Moffitt Cancer Center, Tampa, Florida, USA.

Department of Physics, University of South Florida, Tampa, Florida, USA.

出版信息

J Appl Clin Med Phys. 2023 Dec;24(12):e14134. doi: 10.1002/acm2.14134. Epub 2023 Aug 24.

DOI:10.1002/acm2.14134

PMID:37621133

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10691641/

Abstract

PURPOSE

A planning strategy was developed and the utility of online-adaptation with the Ethos CBCT-guided ring-gantry adaptive radiotherapy (ART) system was evaluated using retrospective data from Head-and-neck (H&N) patients that required clinical offline adaptation during treatment.

METHODS

Clinical data were used to re-plan 20 H&N patients (10 sequential boost (SEQ) with separate base and boost plans plus 10 simultaneous integrated boost (SIB)). An optimal approach, robust to online adaptation, for Ethos-initial plans using clinical goal prioritization was developed. Anatomically-derived isodose-shaping helper structures, air-density override, goals for controlling hotspot location(s), and plan normalization were investigated. Online adaptation was simulated using clinical offline adaptive simulation-CTs to represent an on-treatment CBCT. Dosimetric comparisons were based on institutional guidelines for Clinical-initial versus Ethos-initial plans and Ethos-scheduled versus Ethos-adapted plans. Timing for five components of the online adaptive workflow was analyzed.

RESULTS

The Ethos H&N planning approach generated Ethos-initial SEQ plans with clinically comparable PTV coverage (average PTV V = 98.3%, D = 97.9% and D = 105.5%) and OAR sparing. However, Ethos-initial SIB plans were clinically inferior (average PTV V = 96.4%, D = 93.7%, D = 110.6%). Fixed-field IMRT was superior to VMAT for 93.3% of plans. Online adaptation succeeded in achieving conformal coverage to the new anatomy in both SEQ and SIB plans that was even superior to that achieved in the initial plans (which was due to the changes in anatomy that simplified the optimization). The average adaptive workflow duration for SIB, SEQ base and SEQ boost was 30:14, 22.56, and 14:03 (min: sec), respectively.

CONCLUSIONS

With an optimal planning approach, Ethos efficiently auto-generated dosimetrically comparable and clinically acceptable initial SEQ plans for H&N patients. Initial SIB plans were inferior and clinically unacceptable, but adapted SIB plans became clinically acceptable. Online adapted plans optimized dose to new anatomy and maintained target coverage/homogeneity with improved OAR sparing in a time-efficient manner.

摘要

目的

制定了一种计划策略，并通过回顾性数据评估了 Ethos CBCT 引导的环形机架自适应放疗（ART）系统的在线自适应功能，这些数据来自治疗过程中需要临床离线自适应的头颈部（H&N）患者。

方法

使用临床数据重新计划了 20 例 H&N 患者（10 例序贯增强（SEQ），分别为基础和增强计划，外加 10 例同时整合增强（SIB））。为了使 Ethos 初始计划具有抗在线自适应能力，采用了基于临床目标优先级的最佳方法。研究了基于解剖结构的等剂量成形辅助结构、空气密度覆盖、控制热点位置的目标以及计划归一化。使用临床离线自适应模拟 CT 模拟在线自适应，代表治疗中的 CBCT。基于机构指南，对临床初始与 Ethos 初始计划以及 Ethos 计划与 Ethos 自适应计划进行了剂量学比较。分析了在线自适应工作流程的五个组成部分的时间。

结果

Ethos H&N 规划方法生成了 Ethos 初始 SEQ 计划，具有临床可比的靶区覆盖（平均 PTV V = 98.3%，D = 97.9%和 D = 105.5%）和 OAR 保护。然而，Ethos 初始 SIB 计划在临床上较差（平均 PTV V = 96.4%，D = 93.7%，D = 110.6%）。对于 93.3%的计划，固定野调强放疗优于容积旋转调强放疗。在线自适应成功地实现了对新解剖结构的适形覆盖，甚至优于初始计划（这是由于解剖结构的变化使优化变得简单）。SIB、SEQ 基础和 SEQ 增强的平均自适应工作流程时间分别为 30:14、22.56 和 14:03（分钟：秒）。

结论

通过优化的规划方法，Ethos 能够高效地为 H&N 患者自动生成具有可比剂量学和可接受的初始 SEQ 计划。初始 SIB 计划较差且临床不可接受，但自适应 SIB 计划变得临床可接受。在线自适应计划以高效的方式优化了新解剖结构的剂量，同时保持了靶区覆盖/均匀性，并改善了 OAR 保护。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a890/10691641/96e06c2302ec/ACM2-24-e14134-g008.jpg

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一种基于 CBCT 引导的环形机架在线自适应放疗系统的头颈部治疗计划策略。

A head and neck treatment planning strategy for a CBCT-guided ring-gantry online adaptive radiotherapy system.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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