通过组织病理学和CT图像数据的多模态人工智能整合提高间质性肺疾病的诊断水平

Enhancing Interstitial Lung Disease Diagnoses Through Multimodal AI Integration of Histopathological and CT Image Data.

作者信息

Lami Kris, Ozasa Mutsumi, Che Xiangqian, Uegami Wataru, Kato Yoshihiro, Zaizen Yoshiaki, Tsuyama Naoko, Mori Ichiro, Ichihara Shin, Yoon Han-Seung, Egashira Ryoko, Kataoka Kensuke, Johkoh Takeshi, Kondo Yasuhiro, Attanoos Richard, Cavazza Alberto, Marchevsky Alberto M, Schneider Frank, Augustyniak Jaroslaw Wojciech, Almutrafi Amna, Fabro Alexandre Todorovic, Brcic Luka, Roden Anja C, Smith Maxwell, Moreira Andre, Fukuoka Junya

机构信息

Department of Pathology Informatics, Nagasaki University Graduate School of Biomedical Sciences, Nagasaki, Japan.

Department of Respiratory Medicine, Nagasaki University Graduate School of Biomedical Sciences, Nagasaki, Japan.

出版信息

Respirology. 2025 Apr 2. doi: 10.1111/resp.70036.

DOI:10.1111/resp.70036

PMID:40176267

Abstract

BACKGROUND AND OBJECTIVE

The diagnosis of interstitial lung diseases (ILDs) often relies on the integration of various clinical, radiological, and histopathological data. Achieving high diagnostic accuracy in ILDs, particularly for distinguishing usual interstitial pneumonia (UIP), is challenging and requires a multidisciplinary approach. Therefore, this study aimed to develop a multimodal artificial intelligence (AI) algorithm that combines computed tomography (CT) and histopathological images to improve the accuracy and consistency of UIP diagnosis.

METHODS

A dataset of CT and pathological images from 324 patients with ILD between 2009 and 2021 was collected. The CT component of the model was trained to identify 28 different radiological features. The pathological counterpart was developed in our previous study. A total of 114 samples were selected and used for testing the multimodal AI model. The performance of the multimodal AI was assessed through comparisons with expert pathologists and general pathologists.

RESULTS

The developed multimodal AI demonstrated a substantial improvement in distinguishing UIP from non-UIP, achieving an AUC of 0.92. When applied by general pathologists, the diagnostic agreement rate improved significantly, with a post-model κ score of 0.737 compared to 0.273 pre-model integration. Additionally, the diagnostic consensus rate with expert pulmonary pathologists increased from κ scores of 0.278-0.53 to 0.474-0.602 post-model integration. The model also increased diagnostic confidence among general pathologists.

CONCLUSION

Combining CT and histopathological images, the multimodal AI algorithm enhances pathologists' diagnostic accuracy, consistency, and confidence in identifying UIP, even in cases where specialised expertise is limited.

摘要

背景与目的

间质性肺疾病（ILDs）的诊断通常依赖于多种临床、影像学和组织病理学数据的整合。在ILDs中实现高诊断准确性，尤其是区分寻常型间质性肺炎（UIP）具有挑战性，需要多学科方法。因此，本研究旨在开发一种结合计算机断层扫描（CT）和组织病理学图像的多模态人工智能（AI）算法，以提高UIP诊断的准确性和一致性。

方法

收集了2009年至2021年间324例ILD患者的CT和病理图像数据集。对模型的CT部分进行训练，以识别28种不同的放射学特征。病理部分是在我们之前的研究中开发的。总共选择了114个样本用于测试多模态AI模型。通过与专家病理学家和普通病理学家比较来评估多模态AI的性能。

结果

所开发的多模态AI在区分UIP与非UIP方面有显著改善，曲线下面积（AUC）达到0.92。当由普通病理学家应用时，诊断符合率显著提高，模型后κ评分为0.737，而模型整合前为0.273。此外，与专家肺病理学家的诊断一致性率从模型整合前的κ评分0.278 - 0.53提高到0.474 - 0.602。该模型还提高了普通病理学家的诊断信心。

结论

结合CT和组织病理学图像，多模态AI算法提高了病理学家在识别UIP方面的诊断准确性、一致性和信心，即使在专业知识有限的情况下也是如此。

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通过组织病理学和CT图像数据的多模态人工智能整合提高间质性肺疾病的诊断水平

Enhancing Interstitial Lung Disease Diagnoses Through Multimodal AI Integration of Histopathological and CT Image Data.

作者信息

机构信息

出版信息

BACKGROUND AND OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景与目的

方法

结果

结论

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