人工智能和放射组学提高 SOS 临床试验中数字胸部断层合成术检测肺癌的阳性预测值。

Artificial intelligence and radiomics enhance the positive predictive value of digital chest tomosynthesis for lung cancer detection within SOS clinical trial.

机构信息

Medical Physics Division, Santa Croce e Carle Hospital, via Coppino 26, 12100, Cuneo, Italy.

Radiology Division, Santa Croce e Carle Hospital, Cuneo, Italy.

出版信息

Eur Radiol. 2020 Jul;30(7):4134-4140. doi: 10.1007/s00330-020-06783-z. Epub 2020 Mar 12.

DOI:10.1007/s00330-020-06783-z

PMID:32166491

Abstract

OBJECTIVE

To enhance the positive predictive value (PPV) of chest digital tomosynthesis (DTS) in the lung cancer detection with the analysis of radiomics features.

METHOD

The investigation was carried out within the SOS clinical trial (NCT03645018) for lung cancer screening with DTS. Lung nodules were identified by visual analysis and then classified using the diameter and the radiological aspect of the nodule following lung-RADS. Haralick texture features were extracted from the segmented nodules. Both semantic variables and radiomics features were used to build a predictive model using logistic regression on a subset of variables selected with backward feature selection and using two machine learning: a Random Forest and a neural network with the whole subset of variables. The methods were applied to a train set and validated on a test set where diagnostic accuracy metrics were calculated.

RESULTS

Binary visual analysis had a good sensitivity (0.95) but a low PPV (0.14). Lung-RADS classification increased the PPV (0.19) but with an unacceptable low sensitivity (0.65). Logistic regression showed a mildly increased PPV (0.29) but a lower sensitivity (0.20). Random Forest demonstrated a moderate PPV (0.40) but with a low sensitivity (0.30). Neural network demonstrated to be the best predictor with a high PPV (0.95) and a high sensitivity (0.90).

CONCLUSIONS

The neural network demonstrated the best PPV. The use of visual analysis along with neural network could help radiologists to reduce the number of false positive in DTS.

KEY POINTS

• We investigated several approaches to enhance the positive predictive value of chest digital tomosynthesis in the lung cancer detection. • Neural network demonstrated to be the best predictor with a nearly perfect PPV. • Neural network could help radiologists to reduce the number of false positive in DTS.

摘要

目的

通过分析放射组学特征，提高胸部数字断层融合成像（DTS）肺癌检测的阳性预测值（PPV）。

方法

该研究在 SOS 临床试验（NCT03645018）中进行，用于 DTS 肺癌筛查。通过视觉分析识别肺结节，然后根据结节的直径和放射学特征按照 lung-RADS 进行分类。从分割的结节中提取 Haralick 纹理特征。使用逻辑回归，通过向后特征选择选择变量子集，然后使用两种机器学习方法（随机森林和神经网络），使用整个变量子集构建预测模型。方法应用于训练集，并在测试集上进行验证，计算诊断准确性指标。

结果

二进制视觉分析具有良好的敏感性（0.95），但 PPV 较低（0.14）。lung-RADS 分类增加了 PPV（0.19），但敏感性（0.65）不可接受低。逻辑回归显示 PPV 略有增加（0.29），但敏感性较低（0.20）。随机森林显示出中等的 PPV（0.40），但敏感性较低（0.30）。神经网络表现出最佳预测能力，具有较高的 PPV（0.95）和较高的敏感性（0.90）。

结论

神经网络显示出最佳的 PPV。使用视觉分析结合神经网络可以帮助放射科医生减少 DTS 中的假阳性数量。

关键点

• 我们研究了几种方法来提高胸部数字断层融合成像在肺癌检测中的阳性预测值。• 神经网络是最佳预测器，具有近乎完美的 PPV。• 神经网络可以帮助放射科医生减少 DTS 中的假阳性数量。

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人工智能和放射组学提高 SOS 临床试验中数字胸部断层合成术检测肺癌的阳性预测值。

Artificial intelligence and radiomics enhance the positive predictive value of digital chest tomosynthesis for lung cancer detection within SOS clinical trial.

机构信息

出版信息

OBJECTIVE

METHOD

RESULTS

CONCLUSIONS

KEY POINTS

目的

方法

结果

结论

关键点

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