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DeepRank-GNN: a graph neural network framework to learn patterns in protein-protein interfaces.DeepRank-GNN:一种图神经网络框架,用于学习蛋白质-蛋白质界面中的模式。
Bioinformatics. 2023 Jan 1;39(1). doi: 10.1093/bioinformatics/btac759.
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A multi-sequences MRI deep framework study applied to glioma classfication.一项应用于脑胶质瘤分类的多序列磁共振成像深度框架研究。
Multimed Tools Appl. 2022;81(10):13563-13591. doi: 10.1007/s11042-022-12316-1. Epub 2022 Feb 28.
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Two-Stage Selective Ensemble of CNN via Deep Tree Training for Medical Image Classification.基于深度树训练的 CNN 两阶段选择性集成用于医学图像分类。
IEEE Trans Cybern. 2022 Sep;52(9):9194-9207. doi: 10.1109/TCYB.2021.3061147. Epub 2022 Aug 18.
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Prediction of Liquid Chromatographic Retention Time with Graph Neural Networks to Assist in Small Molecule Identification.利用图神经网络预测液相色谱保留时间以辅助小分子鉴定
Anal Chem. 2021 Feb 2;93(4):2200-2206. doi: 10.1021/acs.analchem.0c04071. Epub 2021 Jan 7.
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3D Deep Learning on Medical Images: A Review.三维深度学习在医学图像中的应用:综述。
Sensors (Basel). 2020 Sep 7;20(18):5097. doi: 10.3390/s20185097.
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MGMT Status as a Clinical Biomarker in Glioblastoma.MGMT 状态作为胶质母细胞瘤的临床生物标志物。
Trends Cancer. 2020 May;6(5):380-391. doi: 10.1016/j.trecan.2020.02.010. Epub 2020 Mar 27.
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Challenges to curing primary brain tumours.原发性脑肿瘤的治疗挑战。
Nat Rev Clin Oncol. 2019 Aug;16(8):509-520. doi: 10.1038/s41571-019-0177-5.
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Radiomic MRI signature reveals three distinct subtypes of glioblastoma with different clinical and molecular characteristics, offering prognostic value beyond IDH1.基于磁共振影像的放射组学特征可揭示胶质母细胞瘤的三种不同亚型,具有不同的临床和分子特征,提供了超越 IDH1 的预后价值。
Sci Rep. 2018 Mar 23;8(1):5087. doi: 10.1038/s41598-018-22739-2.
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DNA.Land is a framework to collect genomes and phenomes in the era of abundant genetic information.DNA.Land是一个在遗传信息丰富的时代收集基因组和表型组的框架。
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Effect of Tumor-Treating Fields Plus Maintenance Temozolomide vs Maintenance Temozolomide Alone on Survival in Patients With Glioblastoma: A Randomized Clinical Trial.肿瘤治疗电场联合维持性替莫唑胺与单纯维持性替莫唑胺对胶质母细胞瘤患者生存的影响:一项随机临床试验
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基于视觉图神经网络通过多参数磁共振成像预测O6-甲基鸟嘌呤-DNA甲基转移酶启动子甲基化

MGMT promoter methylation prediction based on multiparametric MRI via vision graph neural network.

作者信息

Hu Mingzhe, Yang Kailin, Wang Jing, Qiu Richard L J, Roper Justin, Kahn Shannon, Shu Hui-Kuo, Yang Xiaofeng

机构信息

Emory University, Department of Radiation Oncology and Winship Cancer Institute, Atlanta, Georgia, United States.

Emory University, Department of Computer Science and Informatics, Atlanta, Georgia, United States.

出版信息

J Med Imaging (Bellingham). 2024 Jan;11(1):014503. doi: 10.1117/1.JMI.11.1.014503. Epub 2024 Feb 16.

DOI:10.1117/1.JMI.11.1.014503
PMID:38370421
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10869845/
Abstract

PURPOSE

Glioblastoma (GBM) is aggressive and malignant. The methylation status of the -methylguanine-DNA methyltransferase (MGMT) promoter in GBM tissue is considered an important biomarker for developing the most effective treatment plan. Although the standard method for assessing the MGMT promoter methylation status is via bisulfite modification and deoxyribonucleic acid (DNA) sequencing of biopsy or surgical specimens, a secondary automated method based on medical imaging may improve the efficiency and accuracy of those tests.

APPROACH

We propose a deep vision graph neural network (ViG) using multiparametric magnetic resonance imaging (MRI) to predict the MGMT promoter methylation status noninvasively. Our model was compared to the RSNA radiogenomic classification winners. The dataset includes 583 usable patient cases. Combinations of MRI sequences were compared. Our multi-sequence fusion strategy was compared with those using single MR sequences.

RESULTS

Our best model [Fluid Attenuated Inversion Recovery (FLAIR), T1-weighted pre-contrast (T1w), T2-weighted (T2)] outperformed the winning models with a test area under the curve (AUC) of 0.628, an accuracy of 0.632, a precision of 0.646, a recall of 0.677, a specificity of 0.581, and an F1 score of 0.661. Compared to the winning models with single MR sequences, our ViG utilizing fused-MRI showed a significant improvement statistically in AUC scores, which are FLAIR (), T1w (), T1wCE (), and T2 ().

CONCLUSIONS

Our model is superior to challenge champions. A graph representation of the medical images enabled good handling of complexity and irregularity. Our work provides an automatic secondary check pipeline to ensure the correctness of MGMT methylation status prediction.

摘要

目的

胶质母细胞瘤(GBM)具有侵袭性和恶性。GBM组织中O6-甲基鸟嘌呤-DNA甲基转移酶(MGMT)启动子的甲基化状态被认为是制定最有效治疗方案的重要生物标志物。虽然评估MGMT启动子甲基化状态的标准方法是通过活检或手术标本的亚硫酸氢盐修饰和脱氧核糖核酸(DNA)测序,但基于医学成像的二次自动化方法可能会提高这些检测的效率和准确性。

方法

我们提出了一种使用多参数磁共振成像(MRI)的深度视觉图神经网络(ViG),以无创地预测MGMT启动子甲基化状态。我们的模型与放射学会(RSNA)放射基因组分类竞赛的获胜者进行了比较。数据集包括583例可用患者病例。比较了MRI序列的组合。将我们的多序列融合策略与使用单个MR序列的策略进行了比较。

结果

我们的最佳模型[液体衰减反转恢复序列(FLAIR)、T1加权平扫(T1w)、T2加权(T2)]优于获胜模型,测试曲线下面积(AUC)为0.628,准确率为0.632,精确率为0.646,召回率为0.677,特异性为0.581,F1分数为0.661。与使用单个MR序列的获胜模型相比,我们利用融合MRI的ViG在AUC分数上有统计学显著提高,分别是FLAIR()、T1w()、T1wCE()和T2()。

结论

我们的模型优于竞赛冠军。医学图像的图表示能够很好地处理复杂性和不规则性。我们的工作提供了一个自动二次检查流程,以确保MGMT甲基化状态预测的正确性。