A deep learning model for differentiating paediatric intracranial germ cell tumour subtypes and predicting survival with MRI: a multicentre prospective study

Yanong Li; Zhizheng Zhuo; Jinyuan Weng; Sven Haller; Harrison X. Bai; Bo Li; Xing Liu; Mingwang Zhu; Zheng Wang; Jane Li; Xiaoguang Qiu; Yaou Liu

doi:10.1186/s12916-024-03575-w

BMC Medicine (Sep 2024)

A deep learning model for differentiating paediatric intracranial germ cell tumour subtypes and predicting survival with MRI: a multicentre prospective study

Yanong Li,
Zhizheng Zhuo,
Jinyuan Weng,
Sven Haller,
Harrison X. Bai,
Bo Li,
Xing Liu,
Mingwang Zhu,
Zheng Wang,
Jane Li,
Xiaoguang Qiu,
Yaou Liu

Affiliations

Yanong Li: Department of Radiation Oncology, Beijing Tiantan Hospital, Capital Medical University
Zhizheng Zhuo: Department of Radiology, Beijing Tiantan Hospital, Capital Medical University
Jinyuan Weng: Department of Radiology, Beijing Tiantan Hospital, Capital Medical University
Sven Haller: UCL Institutes of Neurology and Healthcare Engineering
Harrison X. Bai: Department of Radiology and Radiological Science, Johns Hopkins University School of Medicine
Bo Li: Department of Radiation Oncology, Beijing Tiantan Hospital, Capital Medical University
Xing Liu: Department of Neuropathology, Beijing Neurosurgery Institute
Mingwang Zhu: Department of Radiology, Beijing Sanbo Hospital, Capital Medical University
Zheng Wang: Department of Radiation Oncology, Tianjin Huanhu Hospital, Tianjin Medical University
Jane Li: Department of Radiology, New York Presbyterian, Lower Manhattan Hospital
Xiaoguang Qiu: Department of Radiation Oncology, Beijing Tiantan Hospital, Capital Medical University
Yaou Liu: Department of Radiology, Beijing Tiantan Hospital, Capital Medical University

DOI: https://doi.org/10.1186/s12916-024-03575-w
Journal volume & issue: Vol. 22, no. 1
pp. 1 – 14

Abstract

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Abstract Background The pretherapeutic differentiation of subtypes of primary intracranial germ cell tumours (iGCTs), including germinomas (GEs) and nongerminomatous germ cell tumours (NGGCTs), is essential for clinical practice because of distinct treatment strategies and prognostic profiles of these diseases. This study aimed to develop a deep learning model, iGNet, to assist in the differentiation and prognostication of iGCT subtypes by employing pretherapeutic MR T2-weighted imaging. Methods The iGNet model, which is based on the nnUNet architecture, was developed using a retrospective dataset of 280 pathologically confirmed iGCT patients. The training dataset included 83 GEs and 117 NGGCTs, while the retrospective internal test dataset included 31 GEs and 49 NGGCTs. The model’s diagnostic performance was then assessed with the area under the receiver operating characteristic curve (AUC) in a prospective internal dataset (n = 22) and two external datasets (n = 22 and 20). Next, we compared the diagnostic performance of six neuroradiologists with or without the assistance of iGNet. Finally, the predictive ability of the output of iGNet for progression-free and overall survival was assessed and compared to that of the pathological diagnosis. Results iGNet achieved high diagnostic performance, with AUCs between 0.869 and 0.950 across the four test datasets. With the assistance of iGNet, the six neuroradiologists’ diagnostic AUCs (averages of the four test datasets) increased by 9.22% to 17.90%. There was no significant difference between the output of iGNet and the results of pathological diagnosis in predicting progression-free and overall survival (P = .889). Conclusions By leveraging pretherapeutic MR imaging data, iGNet accurately differentiates iGCT subtypes, facilitating prognostic evaluation and increasing the potential for tailored treatment. Graphical Abstract

Published in BMC Medicine

ISSN: 1741-7015 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine
Website: http://bmcmedicine.biomedcentral.com

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