Head and neck automatic multi-organ segmentation on Dual-Energy Computed Tomography

Anh Thu Lê , Killian Sambourg , Roger Sun , Nicolas Deny , Vjona Cifliku , Rahimeh Rouhi , Eric Deutsch , Nathalie Fournier-Bidoz , Charlotte Robert
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Abstract

Background and purpose

Deep-learning-based automatic segmentation is widely used in radiation oncology to delineate organs-at-risk. Dual-energy CT (DECT) allows the reconstruction of enhanced contrast images that could help with manual and auto-delineation. This paper presents a performance evaluation of a commercial auto-segmentation software on image series generated by a DECT.

Material and methods

Different types of DECT images from seventy four head-and-neck (HN) patients were retrieved, including polyenergetic images at different voltages [80 kV reconstructed with a kernel corresponding to the commercial algorithm DirectDensity™ (PEI80-DD), 80 kV (PEI80), 120 kV-mixed (PEI120)] and a virtual-monoenergetic image at 40 keV (VMI40). Delineations used for treatment planning were considered as ground truth (GT) and were compared with the auto-segmentations performed on the 4 DECT images. A blinded qualitative evaluation of 3 structures (thyroid, left parotid, left nodes level II) was carried out. Performance metrics were calculated for thirteen HN structures to evaluate the auto-contours including dice similarity coefficient (DSC), 95th percentile Hausdorff distance (95HD) and mean surface distance (MSD).

Results

We observed a high rate of low scores for PEI80-DD and VMI40 auto-segmentations on the thyroid and for GT and VMI40 contours on the nodes level II. All images received excellent scores for the parotid glands. The metrics comparison between GT and auto-segmented contours revealed that PEI80-DD had the highest DSC scores, significantly outperforming other reconstructed images for all organs (p < 0.05).

Conclusions

The results indicate that the auto-contouring system cannot generalize to images derived from DECT acquisition. It is therefore crucial to identify which organs benefit from these acquisitions to adapt the training datasets accordingly.
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双能量计算机断层扫描的头颈部多器官自动分割功能
背景和目的基于深度学习的自动分割被广泛应用于放射肿瘤学中,以划分高危器官。双能 CT(DECT)可重建增强对比度图像,有助于手动和自动划线。本文介绍了一款商用自动分割软件在 DECT 生成的图像序列上的性能评估。材料和方法检索了七十四名头颈部(HN)患者的不同类型的 DECT 图像,包括不同电压下的多能图像[使用与商业算法 DirectDensity™ (PEI80-DD)、80 kV (PEI80)、120 kV-混合 (PEI120) 相对应的核重建的 80 kV]和 40 kV (VMI40) 下的虚拟单能图像。用于治疗计划的划分被视为地面实况(GT),并与在 4 幅 DECT 图像上进行的自动分割进行比较。对 3 个结构(甲状腺、左腮腺、左侧结节 II 级)进行了盲法定性评估。对 13 个 HN 结构计算了性能指标,以评估自动轮廓,包括骰子相似系数 (DSC)、第 95 百分位数豪斯多夫距离 (95HD) 和平均表面距离 (MSD)。腮腺的所有图像都获得了极好的评分。GT 和自动分割轮廓之间的度量比较显示,PEI80-DD 的 DSC 分数最高,在所有器官上都明显优于其他重建图像(p < 0.05)。因此,确定哪些器官可从这些采集中获益,从而相应地调整训练数据集至关重要。
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来源期刊
Physics and Imaging in Radiation Oncology
Physics and Imaging in Radiation Oncology Physics and Astronomy-Radiation
CiteScore
5.30
自引率
18.90%
发文量
93
审稿时长
6 weeks
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