A subregion-based RadioFusionOmics model discriminates between grade 4 astrocytoma and glioblastoma on multisequence MRI

Wei, Ruili; Lu, Songlin; Lai, Shengsheng; Liang, Fangrong; Zhang, Wanli; Jiang, Xinqing; Zhen, Xin; Yang, Ruimeng

doi:10.1007/s00432-023-05603-3

J Cancer Res Clin Oncol

2024

DOI: 10.1007/s00432-023-05603-3

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A subregion-based RadioFusionOmics model discriminates between grade 4 astrocytoma and glioblastoma on multisequence MRI

Ruili Wei,

Songlin Lu,

Shengsheng Lai

et al.

Abstract: Purpose To explore a subregion-based RadioFusionOmics (RFO) model for discrimination between adult-type grade 4 astrocytoma and glioblastoma according to the 2021 WHO CNS5 classification. Methods 329 patients (40 grade 4 astrocytomas and 289 glioblastomas) with histologic diagnosis was retrospectively collected from our local institution and The Cancer Imaging Archive (TCIA). The volumes of interests (VOIs) were obtained from four multiparametric M… Show more

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2024

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Cited by 3 publications

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Predicting the Molecular Subtypes of 2021 WHO Grade 4 Glioma by a Multiparametric MRI-Based Machine Learning Model

Xu,

Li,

Zhang

et al. 2024

Preprint

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Purpose: To develop and validate a machine learning (ML) model using multiparametric MRI for the preoperative differentiation of 2021 World Health Organization (WHO) grade 4 astrocytoma and glioblastoma (GBM) (Task 1), and to stratify grade 4 astrocytoma to distinguish isocitrate dehydrogenase-mutant (IDH-mut) from IDH-wild-type (IDH-wt) (Task 2). Additionally, to evaluate the model’s prognostic value. Materials and methods: We retrospectively analyzed 320 glioma patients from three hospitals. Cases were randomly divided into training and validation sets with a 7:3 ratio. Features were extracted from tumor and edema on contrast-enhanced T1-weighted imaging (CE-T1WI) and T2 fluid-attenuated inversion recovery (T2-FLAIR). Extreme gradient boosting (XGBoost) was utilized for constructing ML, clinical, and combined models. Model performance was evaluated with receiver operating characteristic (ROC) curves, decision curves, and calibration curves. Stability was evaluated using six additional classifiers. Kaplan-Meier (KM) survival analysis and the log-rank test assessed the model’s prognostic value. Results: In Task 1 (grade 4 vs GBM) and Task 2 (IDH-mut grade 4 vs IDH-wt grade 4), the combined model (AUC = 0.911 and 0.854, 0.902 and 0.909) and the optimal ML model (AUC = 0.902 and 0.855, 0.904 and 0.895) significantly outperformed the clinical model (AUC = 0.671 and 0.656, 0.619 and 0.605) in both the training and validation sets. Survival analysis showed the combined model performed similarly to molecular subtype in both tasks (P = 0.966 and P = 0.793). Conclusion: The multiparametric MRI ML model effectively distinguished grade 4 astrocytoma from GBM and differentiated IDH-mut from IDH-wt grade 4 astrocytoma. Additionally, the model provides reliable survival stratification for glioma patients with various molecular subtypes.

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Predicting the Molecular Subtypes of 2021 WHO Grade 4 Glioma by a Multiparametric MRI-Based Machine Learning Model

Xu,

Li,

Zhang

et al. 2024

Preprint

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WITHDRAWN: The value of T2WI-based intratumoral and peritumoral edema radiomics in predicting IDH-1 genotype in gliomas

Tang,

Yang,

Tang

et al. 2024

Preprint

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Objective: To explore the preoperative prediction value of isocitrate dehydrogenase-1 (IDH-1) genotype in gliomas using T2WI peritumoral edema radiomics. Methods: Preoperative T2WI images of 164 patients with glioma (WHO grade 2–4) confirmed by pathology were retrospectively analyzed, including wild-type IDH-1 (n = 106) and mutant IDH-1 (n = 58). All patients were randomly divided into training and validation cohorts in the ratio of 7:3. Radiomics features were extracted from tumor and peritumoral edema using 3D-slicer software. The least absolute shrinkage and selection operator (Lasso) method was used for feature selection and regularization. After obtaining the optimized radiomics features, multiple regression models of clinical model (A), intratumoral-only radiomics model (T), peritumoral edema–only radiomics model (E), intratumoral and peritumoral edema radiomics model (H), and clinical combined radiomics model (C) were established and cross-validated. The predictive performance of the model was evaluated by the area under the receiver operating characteristic (ROC) curve (AUC). Result: Model E had a better prediction efficiency than model T, and model H had a better prediction performance than the single-region model, although without significant difference among the three groups (P > 0.05). Model C had the best prediction performance, with an AUC of 0.927 (95% CI: 0.88–0.97) and 0.870 (95% CI: 0.77–0.97), the sensitivity of 0.73 and 0.93, the specificity of 0.83 and 0.81, and the accuracy of 0.86 and 0.82 in the training and validation cohort, respectively. The difference between model C and model A was statistically significant (P< 0.05). Conclusion: Radiomic models based on T2WI intratumoral and peritumoral edema can effectively predict the IDH-1 genotype of gliomas preoperatively.

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WITHDRAWN: The value of T2WI-based intratumoral and peritumoral edema radiomics in predicting IDH-1 genotype in gliomas

Tang,

Yang,

Tang

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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A subregion-based RadioFusionOmics model discriminates between grade 4 astrocytoma and glioblastoma on multisequence MRI

Cited by 3 publications

References 36 publications

Predicting the Molecular Subtypes of 2021 WHO Grade 4 Glioma by a Multiparametric MRI-Based Machine Learning Model

Predicting the Molecular Subtypes of 2021 WHO Grade 4 Glioma by a Multiparametric MRI-Based Machine Learning Model

WITHDRAWN: The value of T2WI-based intratumoral and peritumoral edema radiomics in predicting IDH-1 genotype in gliomas

WITHDRAWN: The value of T2WI-based intratumoral and peritumoral edema radiomics in predicting IDH-1 genotype in gliomas

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