Retrospective Comparison of Geometrical Accuracy among Atlas-based Auto-segmentation, Deep Learning Auto-segmentation, and Deformable Image Registration in the Treatment Replanning for Adaptive Radiotherapy of Head-and-Neck Cancer.

IF 0.7 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Journal of Medical Physics Pub Date : 2024-07-01 Epub Date: 2024-09-21 DOI:10.4103/jmp.jmp_39_24

Yukari Nagayasu, Shoki Inui, Yoshihiro Ueda, Akira Masaoka, Masahide Tominaga, Masayoshi Miyazaki, Koji Konishi

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引用次数: 0

Abstract

Aims: This study aimed to evaluate the geometrical accuracy of atlas-based auto-segmentation (ABAS), deformable image registration (DIR), and deep learning auto-segmentation (DLAS) in adaptive radiotherapy (ART) for head-and-neck cancer (HNC).

Subjects and methods: Seventeen patients who underwent replanning for ART were retrospectively studied, and delineated contours on their replanning computed tomography (CT2) images were delineated. For DIR, the planning CT image (CT1) of the evaluated patients was utilized. In contrast, ABAS was performed using an atlas dataset comprising 30 patients who were not part of the evaluated group. DLAS was trained with 143 patients from different patients from the evaluated patients. The ABAS model was improved, and a modified ABAS (mABAS) was created by adding the evaluated patients' own CT1 to the atlas datasets of ABAS (number of patients of the atlas dataset, 31). The geometrical accuracy of DIR, DLAS, ABAS, and mABAS was evaluated.

Results: The Dice similarity coefficient in DIR was the highest, at >0.8 at all organs at risk. The mABAS was delineated slightly more accurately than the standard ABAS. There was no significant difference between ABAS and DLAS in delineation accuracy. DIR had the lowest Hausdorff distance (HD) value (within 10 mm). The HD values in ABAS, mABAS, and DLAS were within 16 mm.

Conclusions: DIR delineation is the most geometrically accurate ART for HNC.

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基于图集的自动分割、深度学习自动分割和可变形图像注册在头颈癌适应性放疗治疗重新规划中的几何精度回顾性比较

目的：本研究旨在评估基于图集的自动分割（ABAS）、可变形图像配准（DIR）和深度学习自动分割（DLAS）在头颈癌（HNC）自适应放疗（ART）中的几何准确性：对17名接受ART重新扫描的患者进行了回顾性研究，并对其重新扫描的计算机断层扫描（CT2）图像上的轮廓进行了划分。在进行 DIR 时，使用的是被评估患者的规划 CT 图像（CT1）。相比之下，ABAS 使用的是由 30 名非评估组患者组成的图集数据集。DLAS 使用 143 名患者进行训练，这些患者与接受评估的患者不同。对 ABAS 模型进行了改进，在 ABAS 的图集数据集（图集数据集的患者人数为 31 人）中加入了受评患者自身的 CT1，从而创建了改进的 ABAS（mABAS）。对 DIR、DLAS、ABAS 和 mABAS 的几何准确性进行了评估：结果：DIR 的 Dice 相似系数最高，在所有危险器官中均大于 0.8。mABAS 的划分比标准 ABAS 稍为准确。ABAS 和 DLAS 在划定准确性方面没有明显差异。DIR 的 Hausdorff 距离 (HD) 值最低（10 毫米以内）。ABAS、mABAS 和 DLAS 的 HD 值均在 16 毫米以内：结论：DIR 划线是 HNC 几何精确度最高的 ART。

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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来源期刊

Journal of Medical Physics RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

CiteScore

1.10

自引率

11.10%

发文量

审稿时长

30 weeks

期刊介绍： JOURNAL OF MEDICAL PHYSICS is the official journal of Association of Medical Physicists of India (AMPI). The association has been bringing out a quarterly publication since 1976. Till the end of 1993, it was known as Medical Physics Bulletin, which then became Journal of Medical Physics. The main objective of the Journal is to serve as a vehicle of communication to highlight all aspects of the practice of medical radiation physics. The areas covered include all aspects of the application of radiation physics to biological sciences, radiotherapy, radiodiagnosis, nuclear medicine, dosimetry and radiation protection. Papers / manuscripts dealing with the aspects of physics related to cancer therapy / radiobiology also fall within the scope of the journal.