使用背景层统计(BLAST)对脑转移瘤进行分割。

IF 3.1 3区 医学 Q2 CLINICAL NEUROLOGY American Journal of Neuroradiology Pub Date : 2023-10-01 Epub Date: 2023-09-21 DOI:10.3174/ajnr.A7998
Chris Heyn, Alan R Moody, Chia-Lin Tseng, Erin Wong, Tony Kang, Anish Kapadia, Peter Howard, Pejman Maralani, Sean Symons, Maged Goubran, Anne Martel, Hanbo Chen, Sten Myrehaug, Jay Detsky, Arjun Sahgal, Hany Soliman
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引用次数: 0

摘要

背景和目的:脑转移瘤的准确分割对于治疗计划和评估反应非常重要。本研究的目的是使用背景层统计(BLAST)评估脑转移瘤分割的半自动算法的性能。材料和方法:包括19名患者,48例脑实质和硬膜转移瘤。分割由4名神经放射科医生和1名放射肿瘤学家进行。K-means聚类用于在对比后T2 FLAIR和T1 MPRAGE序列的信号强度的2D参数空间中识别正常的灰质和白质(背景层)。减去背景层,并在参数空间中应用操作员定义的阈值来分割脑转移。剩余的体素被反向投影以在图像空间中可视化分割,并由操作员进行评估。分割性能是通过使用研究人员进行的地面实况分割计算Dice-Sørensen系数和Hausdorff距离来测量的。使用5点Likert量表评估来自分割的轮廓的临床接受度。结果:所有脑转移瘤的Dice-Sørensen系数中位数为0.82,≥10的脑转移瘤为0.9 Hausdorff距离中值为1.4 发现脑转移体积的良好的头部间一致性,组内相关系数=0.9978。中值分割时间为2.8 分钟/转移。45个轮廓线(94%)的Likert评分为4或5,表明这些轮廓线可以接受治疗,不需要更改或小的编辑。结论:我们使用BLAST对脑转移瘤进行了准确和可重复的分割,并证明了其作为放射计划和评估治疗反应的工具的潜力。
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Segmentation of Brain Metastases Using Background Layer Statistics (BLAST).

Background and purpose: Accurate segmentation of brain metastases is important for treatment planning and evaluating response. The aim of this study was to assess the performance of a semiautomated algorithm for brain metastases segmentation using Background Layer Statistics (BLAST).

Materials and methods: Nineteen patients with 48 parenchymal and dural brain metastases were included. Segmentation was performed by 4 neuroradiologists and 1 radiation oncologist. K-means clustering was used to identify normal gray and white matter (background layer) in a 2D parameter space of signal intensities from postcontrast T2 FLAIR and T1 MPRAGE sequences. The background layer was subtracted and operator-defined thresholds were applied in parameter space to segment brain metastases. The remaining voxels were back-projected to visualize segmentations in image space and evaluated by the operators. Segmentation performance was measured by calculating the Dice-Sørensen coefficient and Hausdorff distance using ground truth segmentations made by the investigators. Contours derived from the segmentations were evaluated for clinical acceptance using a 5-point Likert scale.

Results: The median Dice-Sørensen coefficient was 0.82 for all brain metastases and 0.9 for brain metastases of ≥10 mm. The median Hausdorff distance was 1.4 mm. Excellent interreader agreement for brain metastases volumes was found with an intraclass correlation coefficient = 0.9978. The median segmentation time was 2.8 minutes/metastasis. Forty-five contours (94%) had a Likert score of 4 or 5, indicating that the contours were acceptable for treatment, requiring no changes or minor edits.

Conclusions: We show accurate and reproducible segmentation of brain metastases using BLAST and demonstrate its potential as a tool for radiation planning and evaluating treatment response.

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来源期刊
CiteScore
7.10
自引率
5.70%
发文量
506
审稿时长
2 months
期刊介绍: The mission of AJNR is to further knowledge in all aspects of neuroimaging, head and neck imaging, and spine imaging for neuroradiologists, radiologists, trainees, scientists, and associated professionals through print and/or electronic publication of quality peer-reviewed articles that lead to the highest standards in patient care, research, and education and to promote discussion of these and other issues through its electronic activities.
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