在CCB质子治疗中心使用快速蒙特卡罗技术支持患者特定的质量保证

IF 2.7 3区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Physica Medica-European Journal of Medical Physics Pub Date : 2025-09-03 DOI:10.1016/j.ejmp.2025.105085

Wiktor Komenda , Natalia Mojżeszek , Marta Bałamut , Jan Gajewski , Hubert Jabłoński , Damian Kabat , Renata Kopeć , Dawid Krzempek , Paweł Rogalski , Marzena Rydygier , Anna Spaleniak , Paulina Stasica-Dudek , Antoni Ruciński

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引用次数: 0

摘要

目的质子治疗的实验患者特异性质量保证（PSQA）是一个劳动密集型的过程，需要物理进入治疗室，光束时间和大量的人力资源。随着治疗方案的日益复杂和适应性治疗的实施，迫切需要有效的替代方案。基于仿真的技术被提出作为实验技术的替代或增强。本研究提出了一种基于模拟的PSQA标准选择和验证的数据驱动方法。方法采用FRED Monte Carlo代码对293例患者（Gantry 1）和296例患者（Gantry 2）的PSQA进行模拟，分为训练子集和验证子集。训练数据集指导基于仿真的PSQA的标准选择。以3% / 2mm、2% / 2mm、1.75% / 2mm、1.5% / 2mm和1.25% / 2mm为标准分析伽玛指数（GI），并通过Spearman秩检验与实验PSQA进行比较。对GI标准和通过率阈值进行了测试，以最大限度地提高实验和基于模拟的PSQA之间的一致性，并最大限度地减少假阳性错误的可能性。我们在验证子集上验证了选择的标准。结果分析确定1.75% /2 mm GI标准为最佳，合格率为95%。在2816架飞机的独立验证数据集上的验证表明，基于仿真的PSQA与实验的PSQA高度一致：龙门1的一致性为97.5%，龙门2的一致性为98.6%。门架1的假阳性被消除，门架2的假阳性减少到0.5%。结论该方法可简化PSQA工作流程，保持临床准确性，并可将基于模拟的PSQA整合到常规实践中。

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Supporting patient-specific quality assurance with fast Monte Carlo at CCB proton therapy center

Purpose

Experimental patient-specific quality assurance (PSQA) in proton therapy is a labor-intensive process requiring physical access to treatment rooms, beam time, and significant human resources. With the increasing complexity of treatment plans and the implementation of adaptive therapy, the need for efficient alternatives is pressing. Simulation-based techniques are proposed as a replacement or enhancement for experimental ones. This study presents a data-driven approach to simulation-based PSQA criteria selection and validation.

Methods

The FRED Monte Carlo code was used to simulate PSQA for 293 patients (Gantry 1) and 296 patients (Gantry 2), divided into training and verification subsets. The training dataset guided criteria selection for simulation-based PSQA. The gamma index (GI) was analysed with criteria of 3 %/2 mm, 2 %/2 mm, 1.75 %/2 mm, 1.5 %/2 mm and 1.25 %/2 mm and compared to experimental PSQA through Spearman’s rank test. Both GI criteria and passing rate thresholds were tested to maximize consistency between experimental and simulation-based PSQA and to minimize the likelihood of false-positive errors. We validated the selected criterion on the verification subset.

Results

The analysis identified the 1.75 %/2 mm GI criterion with a 95 % passing rate as optimal. Validation on an independent verification dataset of 2816 planes showed high consistency between simulation-based and experimental PSQA: 97.5 % agreement for Gantry 1 and 98.6 % for Gantry 2. False positives were eliminated for Gantry 1 and reduced to 0.5 % for Gantry 2.

Conclusion

The proposed approach demonstrates its potential to streamline PSQA workflows, maintain clinical accuracy, and enable the integration of simulation-based PSQA into routine practice.

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来源期刊

Physica Medica-European Journal of Medical Physics 生物-生物物理

CiteScore

6.80

自引率

14.70%

发文量

493

审稿时长

78 days

期刊介绍： Physica Medica, European Journal of Medical Physics, publishing with Elsevier from 2007, provides an international forum for research and reviews on the following main topics: Medical Imaging Radiation Therapy Radiation Protection Measuring Systems and Signal Processing Education and training in Medical Physics Professional issues in Medical Physics.