基于 MRI 的放射组学和机器学习对良恶性实体性肾病变的鉴别诊断。

Differentiation of benign from malignant solid renal lesions with MRI-based radiomics and machine learning.

机构信息

Department of Radiology, University of Wisconsin School of Medicine & Public Health, 600 Highland Avenue, Madison, WI, 53792, USA.

Department of Biostatistics and Medical Informatics, University of Wisconsin School of Medicine & Public Health, Madison, WI, USA.

出版信息

Abdom Radiol (NY). 2022 Aug;47(8):2896-2904. doi: 10.1007/s00261-022-03577-3. Epub 2022 Jun 20.

DOI:10.1007/s00261-022-03577-3

PMID:35723716

Abstract

BACKGROUND

Solid renal masses are often indeterminate for benignity versus malignancy on magnetic resonance imaging. Such masses are typically evaluated with either percutaneous biopsy or surgical resection. Percutaneous biopsy can be non-diagnostic and some surgically resected lesions are inadvertently benign.

PURPOSE

To assess the performance of ten machine learning (ML) algorithms trained with MRI-based radiomics features in distinguishing benign from malignant solid renal masses.

METHODS

Patients with solid renal masses identified on pre-intervention MRI were curated from our institutional database. Masses with a definitive diagnosis via imaging (for angiomyolipomas) or via biopsy or surgical resection (for oncocytomas or renal cell carcinomas) were selected. Each mass was segmented for both T2- and post-contrast T1-weighted images. Radiomics features were derived from the segmented masses for each imaging sequence. Ten ML algorithms were trained with the radiomics features gleaned from each MR sequence, as well as the combination of MR sequences.

RESULTS

In total, 182 renal masses in 160 patients were included in the study. The support vector machine algorithm trained on radiomics features from T2-weighted images performed superiorly, with an accuracy of 0.80 and an area under the curve (AUC) of 0.79. Linear discriminant analysis (accuracy = 0.84 and AUC = 0.77) and logistic regression (accuracy = 0.78 and AUC = 0.78) algorithms trained on T2-based radiomics features performed similarly. ML algorithms trained on radiomics features from post-contrast T1-weighted images or the combination of radiomics features from T2- and post-contrast T1-weighted images yielded lower performance.

CONCLUSION

Machine learning models trained with radiomics features derived from T2-weighted images can provide high accuracy for distinguishing benign from malignant solid renal masses.

CLINICAL IMPACT

Machine learning models derived from MRI-based radiomics features may improve the clinical management of solid renal masses and have the potential to reduce the frequency with which benign solid renal masses are biopsied or surgically resected.

摘要

背景

在磁共振成像（MRI）上，肾脏实性肿块通常难以确定其良恶性。此类肿块通常通过经皮活检或手术切除进行评估。经皮活检可能无法明确诊断，而一些手术切除的病变则意外为良性。

目的

评估基于 MRI 放射组学特征训练的 10 种机器学习（ML）算法在区分肾脏实性良恶性肿块中的性能。

方法

从我们的机构数据库中筛选出在术前 MRI 上发现的肾脏实性肿块患者。选择通过影像学（血管平滑肌脂肪瘤）或活检或手术切除（嗜酸细胞瘤或肾细胞癌）明确诊断的肿块。对每个肿块的 T2 加权和对比后 T1 加权图像进行分割。从每个成像序列的分割肿块中提取放射组学特征。用从每个 MR 序列获得的放射组学特征以及 MR 序列的组合训练 10 种 ML 算法。

结果

本研究共纳入 160 例患者的 182 个肾脏肿块。在 T2 加权图像的放射组学特征上训练的支持向量机算法表现最佳，其准确性为 0.80，曲线下面积（AUC）为 0.79。基于 T2 加权图像的放射组学特征训练的线性判别分析（accuracy=0.84 and AUC=0.77）和逻辑回归（accuracy=0.78 and AUC=0.78）算法表现类似。基于对比后 T1 加权图像的放射组学特征或 T2 和对比后 T1 加权图像的放射组学特征组合训练的 ML 算法表现稍差。

结论

基于 T2 加权图像的放射组学特征训练的机器学习模型可提供高准确性，有助于区分肾脏实性良恶性肿块。

临床意义

基于 MRI 放射组学特征的机器学习模型可改善肾脏实性肿块的临床管理，并有潜力减少对良性肾脏实性肿块进行活检或手术切除的频率。

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基于 MRI 的放射组学和机器学习对良恶性实体性肾病变的鉴别诊断。

Differentiation of benign from malignant solid renal lesions with MRI-based radiomics and machine learning.

机构信息

出版信息

BACKGROUND

PURPOSE

METHODS

RESULTS

CONCLUSION

CLINICAL IMPACT

背景

目的

方法

结果

结论

临床意义

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