Development and validation of multiple machine learning algorithms for differentiating primary central nervous system lymphoma from adult-type diffuse glioma: an interpretable and multicenter study.
1/5 보강
[BACKGROUND] Preoperative differentiation of primary central nervous system lymphoma (PCNSL) from adult-type diffuse glioma(ADG) is important to guide neurosurgical decision-making.To develop and vali
APA
Liang Y, Hu J, et al. (2025). Development and validation of multiple machine learning algorithms for differentiating primary central nervous system lymphoma from adult-type diffuse glioma: an interpretable and multicenter study.. Frontiers in oncology, 15, 1713099. https://doi.org/10.3389/fonc.2025.1713099
MLA
Liang Y, et al.. "Development and validation of multiple machine learning algorithms for differentiating primary central nervous system lymphoma from adult-type diffuse glioma: an interpretable and multicenter study.." Frontiers in oncology, vol. 15, 2025, pp. 1713099.
PMID
41573657 ↗
Abstract 한글 요약
[BACKGROUND] Preoperative differentiation of primary central nervous system lymphoma (PCNSL) from adult-type diffuse glioma(ADG) is important to guide neurosurgical decision-making.To develop and validate a MRI-based interpretable radiomic-clinical(Rad-Clinic) fusion model to differentiate PCNSL from ADG by seven machine learning algorithms.
[METHODS] In this retrospective study, we recruited 165 patients who underwent preoperative conventional MRI(CET1WI, FLAIR, DWI, ADC) with PCNSL and ADG from two institutions (115 in the training cohort and 50 in the external validation cohort). we selected seven machine learning algorithms to construct a framework incorporating radiomic features and clinical parameters. SHapley Additive exPlanations (SHAP) values elucidated feature contributions, and a radiomic nomogram was developed for clinical translation.
[RESULTS] The CET1WI+DWI+FLAIR fusion model exhibited optimal performance among all the single-sequence and multi-sequence radiomic models, and the AUC for external validation cohort were 0.871. But the Rad-Clinic fusion model performed well in differentiating PCNSL from ADG, and the AUC for the training and external validation cohort were 0.973 and 0.940, outperforming radiomic model and clinical model.SHAP summary plot illustrated the feature's value affected the feature'simpact attributed to the Rad-Clinic fusion model.The nomogram demonstrated clinical interpretability through visualised risk stratification.
[CONCLUSION] An interpretable Rad-Clinic fusion model enables accurate preoperative to differentiate PCNSL from ADG, and may assist improve clinical decision-making.
[METHODS] In this retrospective study, we recruited 165 patients who underwent preoperative conventional MRI(CET1WI, FLAIR, DWI, ADC) with PCNSL and ADG from two institutions (115 in the training cohort and 50 in the external validation cohort). we selected seven machine learning algorithms to construct a framework incorporating radiomic features and clinical parameters. SHapley Additive exPlanations (SHAP) values elucidated feature contributions, and a radiomic nomogram was developed for clinical translation.
[RESULTS] The CET1WI+DWI+FLAIR fusion model exhibited optimal performance among all the single-sequence and multi-sequence radiomic models, and the AUC for external validation cohort were 0.871. But the Rad-Clinic fusion model performed well in differentiating PCNSL from ADG, and the AUC for the training and external validation cohort were 0.973 and 0.940, outperforming radiomic model and clinical model.SHAP summary plot illustrated the feature's value affected the feature'simpact attributed to the Rad-Clinic fusion model.The nomogram demonstrated clinical interpretability through visualised risk stratification.
[CONCLUSION] An interpretable Rad-Clinic fusion model enables accurate preoperative to differentiate PCNSL from ADG, and may assist improve clinical decision-making.
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