Multiparameter MRI-based automatic segmentation and diagnostic models for the differentiation of intracranial solitary fibrous tumors and meningiomas

Multiparameter MRI-based automatic segmentation and diagnostic models for the differentiation of intracranial solitary fibrous tumors and meningiomas

Background Intracranial solitary fibrous tumors (SFTs) and meningiomas are meningeal tumors with different malignancy levels and prognoses. Their similar imaging features make preoperative differentiation difficult, resulting in high misdiagnosis rates. Thus, accurately distinguishing SFTs from meni...

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Bibliographic Details
Main Authors: Lingzhen Wei, Zehong Cao, Feng Shi, Fuyan Li, Yi Cui, Yu Gu, Jinming Chen, Meilin Li, Jiahao Liu, Huaizhen Wang, Xuechun Wang, Qingshi Zeng
Format: Article
Language:English
Published: Taylor & Francis Group 2025-12-01
Series:Annals of Medicine
Subjects:
Solitary fibrous tumors
meningiomas
automatic segmentation
machine learning
differential diagnosis
magnetic resonance imaging
Online Access:https://www.tandfonline.com/doi/10.1080/07853890.2025.2530223
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Summary:Background Intracranial solitary fibrous tumors (SFTs) and meningiomas are meningeal tumors with different malignancy levels and prognoses. Their similar imaging features make preoperative differentiation difficult, resulting in high misdiagnosis rates. Thus, accurately distinguishing SFTs from meningiomas preoperatively is vital for surgical planning and treatment strategies.Patients and methods A total of 252 patients (56 SFTs and 196 meningiomas) data from January 2014 to May 2024 were used to train our models . A VB-Net deep learning network was employed to refine automatic segmentation. To identify SFTs and meningiomas, the segmented data were analyzed using machine learning to construct single-sequence and multi-sequence MRI models and combined with clinical/radiological features to develop a fusion index-related model.To enhance clinical applicability, we constructed a four-category model using the predictive probabilities from secondary classification as input features.Results The VB-Net segmentation model performed well in both the tumor cores and the whole tumor, with DSCs of 0.87 (±0.17) and 0.79 (±0.26), respectively. The integration of clinical and radiological data enhanced the model’s AUC to 0.957. Stratified analysis showed that the weighted AUC value reached 0.846 in the validation set.Conclusion The comprehensive system integrating automatic segmentation with diagnostic models can differentiate SFTs from meningiomas precisely.
ISSN:0785-3890
1365-2060

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