基于超声的影像组学-临床机器学习模型用于预测TI-RADS 3类结节中的甲状腺微小乳头状癌。

The ultrasound-based radiomics-clinical machine learning model to predict papillary thyroid microcarcinoma in TI-RADS 3 nodules.

作者信息

Chen Zhang, Zhan Wenting, Wu Zhijing, He Huiliao, Wang Shaoyi, Huang Xiaoyan, Xu Zhihua, Yang Yan

机构信息

Department of Ultrasound Imaging, The Second Affiliated Hospital and Yuying Children's Hospital of Wenzhou Medical University, Wenzhou, China.

Department of Physics, University of Cambridge, Cambridge, UK.

出版信息

Transl Cancer Res. 2024 Jan 31;13(1):278-289. doi: 10.21037/tcr-23-1375. Epub 2024 Jan 12.

DOI:10.21037/tcr-23-1375

PMID:38410213

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10894343/

Abstract

BACKGROUND

Conventional ultrasound (CUS) technology has proven to be successful in the identification of thyroid nodules. Moreover, the American College of Radiology Thyroid Imaging Reporting and Data System (ACR TI-RADS) was developed for the purpose of evaluating the risk of thyroid nodules based on ultrasound imaging. Nevertheless, identifying papillary thyroid microcarcinoma (PTMC) from TI-RADS 3 nodules using this system can be difficult due to overlapping morphological features. The main objective of this study was to investigate the efficacy of a machine learning model that utilizes ultrasound-based radiomics features and clinical information in accurately predicting the presence of PTMC in TI-RADS 3 nodules.

METHODS

A total of 221 patients with TI-RADS 3 nodules were included, consisting of 91 cases of PTMC and 130 benign thyroid nodules. They were randomly divided into training and test cohort in an 8:2 ratio. Radiomics features were extracted from CUS images by manually outlining the targets, while clinical parameters were obtained from electronic medical records. The radiomics model, clinical model, and combined model were constructed and validated to distinguish between PTMC and benign thyroid nodules. Radiomics variables were extracted via the Pyradiomics package (V1.3.0). Moreover, least absolute shrinkage and selection operator (LASSO) regression was used for feature selection. Light Gradient Boosting Machine (LightGBM) was employed to build both radiomics and clinical models. Ultimately, a radiomics-clinical model, which fused radiomics features with clinical information, was developed.

RESULTS

Among a total of 1,477 radiomics features, fifteen features that were found to be associated with PTMC through univariate analysis and LASSO regression were selected for the development of the radiomics model. The combined "radiomics-clinical" model demonstrated superior diagnostic accuracy compared to the clinical model for distinguishing PTMC in both the training dataset [area under receiver operating curve (AUC): 0.975 0.845] and the validation dataset (AUC: 0.898 0.811). We constructed a radiomics-clinical nomogram, and the clinical applicability was confirmed through decision curve analysis.

CONCLUSIONS

Utilizing an ultrasound-based radiomics approach has proven to be effective in predicting PTMC in patients with TI-RADS 3 nodules.

摘要

背景

传统超声（CUS）技术已被证明在识别甲状腺结节方面是成功的。此外，美国放射学会甲状腺影像报告和数据系统（ACR TI-RADS）是为基于超声成像评估甲状腺结节风险而开发的。然而，由于形态特征重叠，使用该系统从TI-RADS 3类结节中识别甲状腺微小乳头状癌（PTMC）可能具有挑战性。本研究的主要目的是探讨一种利用基于超声的放射组学特征和临床信息的机器学习模型在准确预测TI-RADS 3类结节中PTMC存在方面的有效性。

方法

共纳入221例TI-RADS 3类结节患者，其中PTMC 91例，良性甲状腺结节130例。他们以8:2的比例随机分为训练组和测试组。通过手动勾勒目标从CUS图像中提取放射组学特征，同时从电子病历中获取临床参数。构建并验证放射组学模型、临床模型和联合模型，以区分PTMC和良性甲状腺结节。通过Pyradiomics软件包（V1.3.0）提取放射组学变量。此外，使用最小绝对收缩和选择算子（LASSO）回归进行特征选择。采用轻梯度提升机（LightGBM）构建放射组学和临床模型。最终，开发了一种将放射组学特征与临床信息相融合的放射组学-临床模型。

结果

在总共1477个放射组学特征中，通过单变量分析和LASSO回归发现15个与PTMC相关的特征用于构建放射组学模型。在训练数据集[受试者操作特征曲线下面积（AUC）：0.975对0.845]和验证数据集（AUC：0.898对0.811）中，联合“放射组学-临床”模型在区分PTMC方面显示出优于临床模型的诊断准确性。我们构建了放射组学-临床列线图，并通过决策曲线分析证实了其临床适用性。

结论

利用基于超声的放射组学方法已被证明在预测TI-RADS 3类结节患者的PTMC方面是有效的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/137f/10894343/5825b0df2b6e/tcr-13-01-278-f1.jpg

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基于超声的影像组学-临床机器学习模型用于预测TI-RADS 3类结节中的甲状腺微小乳头状癌。

The ultrasound-based radiomics-clinical machine learning model to predict papillary thyroid microcarcinoma in TI-RADS 3 nodules.

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