Automated abdominal organ segmentation algorithms for non-enhanced CT for volumetry and 3D radiomics analysis.

IF 2.3 3区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Junghoan Park, Ijin Joo, Sun Kyung Jeon, Jong-Min Kim, Sang Joon Park, Soon Ho Yoon
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引用次数: 0

Abstract

Purpose: To develop fully-automated abdominal organ segmentation algorithms from non-enhanced abdominal CT and low-dose chest CT and assess their feasibility for automated CT volumetry and 3D radiomics analysis of abdominal solid organs.

Methods: Fully-automated nnU-Net-based models were developed to segment the liver, spleen, and both kidneys in non-enhanced abdominal CT, and the liver and spleen in low-dose chest CT. 105 abdominal CTs and 60 low-dose chest CTs were used for model development, and 55 abdominal CTs and 10 low-dose chest CTs for external testing. The segmentation performance for each organ was assessed using the Dice similarity coefficients, with manual segmentation results serving as the ground truth. Agreements between ground-truth measurements and model estimates of organ volume and 3D radiomics features were assessed using the Bland-Altman analysis and intraclass correlation coefficients (ICC).

Results: The models accurately segmented the liver, spleen, right kidney, and left kidney in abdominal CT and the liver and spleen in low-dose chest CT, showing mean Dice similarity coefficients in the external dataset of 0.968, 0.960, 0.952, and 0.958, respectively, in abdominal CT, and 0.969 and 0.960, respectively, in low-dose chest CT. The model-estimated and ground truth volumes of these organs exhibited mean differences between - 0.7% and 2.2%, with excellent agreements. The automatically extracted mean and median Hounsfield units (ICCs, 0.970-0.999 and 0.994-0.999, respectively), uniformity (ICCs, 0.985-0.998), entropy (ICCs, 0.931-0.993), elongation (ICCs, 0.978-0.992), and flatness (ICCs, 0.973-0.997) showed excellent agreement with ground truth measurements for each organ; however, skewness (ICCs, 0.210-0.831), kurtosis (ICCs, 0.053-0.933), and sphericity (ICCs, 0.368-0.819) displayed relatively low and inconsistent agreement.

Conclusion: Our nnU-Net-based models accurately segmented abdominal solid organs in non-enhanced abdominal and low-dose chest CT, enabling reliable automated measurements of organ volume and specific 3D radiomics features.

用于体积测量和三维放射组学分析的非增强 CT 的自动腹部器官分割算法。
目的:从非增强腹部 CT 和低剂量胸部 CT 中开发全自动腹部器官分割算法,并评估其用于自动 CT 容积测量和腹部实体器官三维放射组学分析的可行性:开发了基于 nnU-Net 的全自动模型,用于分割非增强腹部 CT 中的肝脏、脾脏和双肾,以及低剂量胸部 CT 中的肝脏和脾脏。模型开发使用了 105 张腹部 CT 和 60 张低剂量胸部 CT,外部测试使用了 55 张腹部 CT 和 10 张低剂量胸部 CT。使用 Dice 相似性系数评估每个器官的分割性能,并将手动分割结果作为地面实况。使用Bland-Altman分析法和类内相关系数(ICC)评估了地面实况测量结果与模型估计的器官体积和三维放射组学特征之间的一致性:在腹部 CT 中,模型准确分割了肝脏、脾脏、右肾和左肾,在低剂量胸部 CT 中,模型准确分割了肝脏和脾脏,在外部数据集中,腹部 CT 的平均 Dice 相似系数分别为 0.968、0.960、0.952 和 0.958,在低剂量胸部 CT 中,平均 Dice 相似系数分别为 0.969 和 0.960。这些器官的模型估计体积和地面实况体积的平均差异介于-0.7%和2.2%之间,两者非常吻合。自动提取的平均和中位 Hounsfield 单位(ICCs,分别为 0.970-0.999 和 0.994-0.999)、均匀性(ICCs,0.985-0.998)、熵(ICCs,0.931-0.993)、伸长率(ICCs,0.978-0.992)和平整度(ICCs,0.973-0.997)与地面真值显示出极好的一致性。然而,偏度(ICCs,0.210-0.831)、峰度(ICCs,0.053-0.933)和球度(ICCs,0.368-0.819)的一致性相对较低且不一致:结论:我们基于 nnU-Net 的模型在非增强腹部和低剂量胸部 CT 中准确分割了腹部实体器官,实现了器官体积和特定三维放射组学特征的可靠自动测量。
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来源期刊
Abdominal Radiology
Abdominal Radiology Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
5.20
自引率
8.30%
发文量
334
期刊介绍: Abdominal Radiology seeks to meet the professional needs of the abdominal radiologist by publishing clinically pertinent original, review and practice related articles on the gastrointestinal and genitourinary tracts and abdominal interventional and radiologic procedures. Case reports are generally not accepted unless they are the first report of a new disease or condition, or part of a special solicited section. Reasons to Publish Your Article in Abdominal Radiology: · Official journal of the Society of Abdominal Radiology (SAR) · Published in Cooperation with: European Society of Gastrointestinal and Abdominal Radiology (ESGAR) European Society of Urogenital Radiology (ESUR) Asian Society of Abdominal Radiology (ASAR) · Efficient handling and Expeditious review · Author feedback is provided in a mentoring style · Global readership · Readers can earn CME credits
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