Enhancing stereotactic ablative boost radiotherapy dose prediction for bulky lung cancer: A multi-scale dilated network approach with scale-balanced structure loss.

IF 2 4区 医学 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Lei Huang, Xianshu Gao, Yue Li, Feng Lyu, Yan Gao, Yun Bai, Mingwei Ma, Siwei Liu, Jiayan Chen, Xueying Ren, Shiyu Shang, Xuanfeng Ding
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引用次数: 0

Abstract

Purpose: Partial stereotactic ablative boost radiotherapy (P-SABR) effectively treats bulky lung cancer; however, the planning process for P-SABR requires repeated dose calculations. To improve planning efficiency, we proposed a novel deep learning method that utilizes limited data to accurately predict the three-dimensional (3D) dose distribution of the P-SABR plan for bulky lung cancer.

Methods: We utilized data on 74 patients diagnosed with bulky lung cancer who received P-SABR treatment. The patient dataset was randomly divided into a training set (51 plans) with augmentation, validation set (7 plans), and testing set (16 plans). We devised a 3D multi-scale dilated network (MD-Net) and integrated a scale-balanced structure loss into the loss function. A comparative analysis with a classical network and other advanced networks with multi-scale analysis capabilities and other loss functions was conducted based on the dose distributions in terms of the axial view, average dose scores (ADSs), and average absolute differences of dosimetric indices (AADDIs). Finally, we analyzed the predicted dosimetric indices against the ground-truth values and compared the predicted dose-volume histogram (DVH) with the ground-truth DVH.

Results: Our proposed dose prediction method for P-SABR plans for bulky lung cancer demonstrated strong performance, exhibiting a significant improvement in predicting multiple indicators of regions of interest (ROIs), particularly the gross target volume (GTV). Our network demonstrated increased accuracy in most dosimetric indices and dose scores in different ROIs. The proposed loss function significantly enhanced the predictive performance of the dosimetric indices. The predicted dosimetric indices and DVHs were equivalent to the ground-truth values.

Conclusion: Our study presents an effective model based on limited datasets, and it exhibits high accuracy in the dose prediction of P-SABR plans for bulky lung cancer. This method has potential as an automated tool for P-SABR planning and can help optimize treatments and improve planning efficiency.

增强大块肺癌的立体定向消融促进放疗剂量预测:具有规模平衡结构损失的多尺度扩张网络方法。
目的:局部立体定向消融放疗(P-SABR)可有效治疗大块肺癌;然而,P-SABR的计划过程需要重复计算剂量。为了提高计划效率,我们提出了一种新型深度学习方法,利用有限的数据准确预测大块肺癌 P-SABR 计划的三维(3D)剂量分布:我们利用了 74 名确诊为大块肺癌并接受了 P-SABR 治疗的患者的数据。患者数据集被随机分为带增强的训练集(51 个计划)、验证集(7 个计划)和测试集(16 个计划)。我们设计了一个三维多尺度扩张网络(MD-Net),并在损失函数中集成了尺度平衡结构损失。根据轴向视图的剂量分布、平均剂量分数(ADS)和剂量测定指数的平均绝对差值(AADDI),我们与经典网络和其他具有多尺度分析能力和其他损失函数的高级网络进行了比较分析。最后,我们对照地面实况值分析了预测的剂量指数,并将预测的剂量-体积直方图(DVH)与地面实况的剂量-体积直方图进行了比较:我们提出的用于大块肺癌 P-SABR 计划的剂量预测方法表现出色,在预测感兴趣区(ROI)的多个指标,尤其是总靶体积(GTV)方面有显著改善。我们的网络提高了不同 ROI 中大多数剂量指数和剂量分数的准确性。所提出的损失函数大大提高了剂量指数的预测性能。预测的剂量指数和 DVH 与地面实况值相当:我们的研究基于有限的数据集提出了一个有效的模型,它在大块肺癌 P-SABR 计划的剂量预测方面表现出很高的准确性。该方法有望成为 P-SABR 计划的自动化工具,有助于优化治疗和提高计划效率。
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来源期刊
CiteScore
3.60
自引率
19.00%
发文量
331
审稿时长
3 months
期刊介绍: Journal of Applied Clinical Medical Physics is an international Open Access publication dedicated to clinical medical physics. JACMP welcomes original contributions dealing with all aspects of medical physics from scientists working in the clinical medical physics around the world. JACMP accepts only online submission. JACMP will publish: -Original Contributions: Peer-reviewed, investigations that represent new and significant contributions to the field. Recommended word count: up to 7500. -Review Articles: Reviews of major areas or sub-areas in the field of clinical medical physics. These articles may be of any length and are peer reviewed. -Technical Notes: These should be no longer than 3000 words, including key references. -Letters to the Editor: Comments on papers published in JACMP or on any other matters of interest to clinical medical physics. These should not be more than 1250 (including the literature) and their publication is only based on the decision of the editor, who occasionally asks experts on the merit of the contents. -Book Reviews: The editorial office solicits Book Reviews. -Announcements of Forthcoming Meetings: The Editor may provide notice of forthcoming meetings, course offerings, and other events relevant to clinical medical physics. -Parallel Opposed Editorial: We welcome topics relevant to clinical practice and medical physics profession. The contents can be controversial debate or opposed aspects of an issue. One author argues for the position and the other against. Each side of the debate contains an opening statement up to 800 words, followed by a rebuttal up to 500 words. Readers interested in participating in this series should contact the moderator with a proposed title and a short description of the topic
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