The Segment Anything foundation model achieves favorable brain tumor auto-segmentation accuracy in MRI to support radiotherapy treatment planning.

IF 2.7 3区医学 Q3 ONCOLOGY Strahlentherapie und Onkologie Pub Date : 2024-11-06 DOI:10.1007/s00066-024-02313-8

Florian Putz, Sogand Beirami, Manuel Alexander Schmidt, Matthias Stefan May, Johanna Grigo, Thomas Weissmann, Philipp Schubert, Daniel Höfler, Ahmed Gomaa, Ben Tkhayat Hassen, Sebastian Lettmaier, Benjamin Frey, Udo S Gaipl, Luitpold V Distel, Sabine Semrau, Christoph Bert, Rainer Fietkau, Yixing Huang

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Abstract

Background: Promptable foundation auto-segmentation models like Segment Anything (SA, Meta AI, New York, USA) represent a novel class of universal deep learning auto-segmentation models that could be employed for interactive tumor auto-contouring in RT treatment planning.

Methods: Segment Anything was evaluated in an interactive point-to-mask auto-segmentation task for glioma brain tumor auto-contouring in 16,744 transverse slices from 369 MRI datasets (BraTS 2020 dataset). Up to nine interactive point prompts were automatically placed per slice. Tumor boundaries were auto-segmented on contrast-enhanced T1w sequences. Out of the three auto-contours predicted by SA, accuracy was evaluated for the contour with the highest calculated IoU (Intersection over Union, "oracle mask," simulating interactive model use with selection of the best tumor contour) and for the tumor contour with the highest model confidence ("suggested mask").

Results: Mean best IoU (mbIoU) using the best predicted tumor contour (oracle mask) in full MRI slices was 0.762 (IQR 0.713-0.917). The best 2D mask was achieved after a mean of 6.6 interactive point prompts (IQR 5-9). Segmentation accuracy was significantly better for high- compared to low-grade glioma cases (mbIoU 0.789 vs. 0.668). Accuracy was worse using the suggested mask (0.572). Stacking best tumor segmentations from transverse MRI slices, mean 3D Dice score for tumor auto-contouring was 0.872, which was improved to 0.919 by combining axial, sagittal, and coronal contours.

Conclusion: The Segment Anything foundation segmentation model can achieve high accuracy for glioma brain tumor segmentation in MRI datasets. The results suggest that foundation segmentation models could facilitate RT treatment planning when properly integrated in a clinical application.

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Segment Anything 基础模型在核磁共振成像中实现了良好的脑肿瘤自动分割精度，为放疗治疗规划提供了支持。

背景：Segment Anything（SA，Meta AI，美国纽约）等可提示的基础自动分割模型代表了一类新型的通用深度学习自动分割模型，可用于 RT 治疗规划中的交互式肿瘤自动轮廓划分：Segment Anything 在一个交互式点到掩膜自动分割任务中进行了评估，该任务是在来自 369 个磁共振成像数据集（BraTS 2020 数据集）的 16,744 个横向切片中进行胶质瘤脑肿瘤自动轮廓划分。每个切片自动放置多达九个互动点提示。在对比增强 T1w 序列上自动分割肿瘤边界。在SA预测的三个自动轮廓中，对计算出的IoU（Intersection over Union，"oracle mask"，模拟使用交互式模型选择最佳肿瘤轮廓）最高的轮廓和模型置信度最高的肿瘤轮廓（"supposed mask"）进行了准确性评估：在全磁共振成像切片中，使用最佳预测肿瘤轮廓（oracle 掩膜）的平均最佳 IoU（mbIoU）为 0.762（IQR 0.713-0.917）。经过平均 6.6 次交互点提示（IQR 5-9）后，获得了最佳 2D 掩膜。高分级胶质瘤病例的分割准确率明显高于低分级胶质瘤病例（mbIoU 0.789 对 0.668）。使用建议掩膜的准确率较低（0.572）。将横向磁共振成像切片中的最佳肿瘤分割结果堆叠在一起，肿瘤自动轮廓的平均 3D Dice 得分为 0.872，而将轴向、矢状和冠状轮廓结合在一起后，平均 3D Dice 得分为 0.919：结论：Segment Anything 基础分割模型在核磁共振成像数据集的胶质瘤脑肿瘤分割中可以达到很高的准确率。结果表明，基础分割模型如果能在临床应用中适当整合，将有助于制定 RT 治疗计划。

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

Strahlentherapie und Onkologie 医学-核医学

CiteScore

5.70

自引率

12.90%

发文量

141

审稿时长

3-8 weeks

期刊介绍： Strahlentherapie und Onkologie, published monthly, is a scientific journal that covers all aspects of oncology with focus on radiooncology, radiation biology and radiation physics. The articles are not only of interest to radiooncologists but to all physicians interested in oncology, to radiation biologists and radiation physicists. The journal publishes original articles, review articles and case studies that are peer-reviewed. It includes scientific short communications as well as a literature review with annotated articles that inform the reader on new developments in the various disciplines concerned and hence allow for a sound overview on the latest results in radiooncology research. Founded in 1912, Strahlentherapie und Onkologie is the oldest oncological journal in the world. Today, contributions are published in English and German. All articles have English summaries and legends. The journal is the official publication of several scientific radiooncological societies and publishes the relevant communications of these societies.