基于磁共振成像的三维分形维数和空隙度分析可能预测脑膜瘤的分级。
Magnetic resonance imaging-based 3-dimensional fractal dimension and lacunarity analyses may predict the meningioma grade.
机构信息
Department of Radiology and Research Institute of Radiological Science, Yonsei University College of Medicine, 50-1 Yonsei-ro, Seodaemun-gu, Seoul, 120-752, South Korea.
Department of Robotics Engineering, Daegu Gyeongbuk Institute of Science and Technology, 333 Techno Jungang Daero, Hyeonpung-Myeon, Dalseong-Gun, Daegu, 42988, South Korea.
出版信息
Eur Radiol. 2020 Aug;30(8):4615-4622. doi: 10.1007/s00330-020-06788-8. Epub 2020 Apr 9.
OBJECTIVE
To assess whether 3-dimensional (3D) fractal dimension (FD) and lacunarity features from MRI can predict the meningioma grade.
METHODS
This retrospective study included 131 patients with meningiomas (98 low-grade, 33 high-grade) who underwent preoperative MRI with post-contrast T1-weighted imaging. The 3D FD and lacunarity parameters from the enhancing portion of the tumor were extracted by box-counting algorithms. Inter-rater reliability was assessed with the intraclass correlation coefficient (ICC). Additionally, conventional imaging features such as location, heterogeneous enhancement, capsular enhancement, and necrosis were assessed. Independent clinical and imaging risk factors for meningioma grade were investigated using multivariable logistic regression. The discriminative value of the prediction model with and without fractal features was evaluated. The relationship of fractal parameters with the mitosis count and Ki-67 labeling index was also assessed.
RESULTS
The inter-reader reliability was excellent, with ICCs of 0.99 for FD and 0.97 for lacunarity. High-grade meningiomas had higher FD (p < 0.001) and higher lacunarity (p = 0.007) than low-grade meningiomas. In the multivariable logistic regression, the diagnostic performance of the model with clinical and conventional imaging features increased with 3D fractal features for predicting the meningioma grade, with AUCs of 0.78 and 0.84, respectively. The 3D FD showed significant correlations with both mitosis count and Ki-67 labeling index, and lacunarity showed a significant correlation with the Ki-67 labeling index (all p values < 0.05).
CONCLUSION
The 3D FD and lacunarity are higher in high-grade meningiomas and fractal analysis may be a useful imaging biomarker for predicting the meningioma grade.
KEY POINTS
• Fractal dimension (FD) and lacunarity are the two parameters used in fractal analysis to describe the complexity of a subject and may aid in predicting meningioma grade. • High-grade meningiomas had a higher fractal dimension and higher lacunarity than low-grade meningiomas, suggesting higher complexity and higher rotational variance. • The discriminative value of the predictive model using clinical and conventional imaging features improved when combined with 3D fractal features for predicting the meningioma grade.
目的
评估磁共振成像(MRI)的三维(3D)分形维数(FD)和空隙度特征是否可预测脑膜瘤的分级。
方法
本回顾性研究纳入了 131 例接受术前 MRI 增强 T1 加权成像的脑膜瘤患者(98 例低级别,33 例高级别)。通过盒计数算法提取肿瘤增强部分的 3D FD 和空隙度参数。采用组内相关系数(ICC)评估观察者间可靠性。此外,还评估了位置、不均匀增强、包膜增强和坏死等常规影像学特征。采用多变量逻辑回归分析脑膜瘤分级的独立临床和影像学危险因素。评估了具有和不具有分形特征的预测模型的判别值。还评估了分形参数与有丝分裂计数和 Ki-67 标记指数的关系。
结果
两位观察者间的可靠性均为极好,FD 的 ICC 为 0.99,空隙度的 ICC 为 0.97。高级别脑膜瘤的 FD(p<0.001)和空隙度(p=0.007)均高于低级别脑膜瘤。多变量逻辑回归显示,具有临床和常规影像学特征的模型的诊断性能随着 3D 分形特征预测脑膜瘤分级而提高,AUC 分别为 0.78 和 0.84。3D FD 与有丝分裂计数和 Ki-67 标记指数均呈显著相关性,而空隙度与 Ki-67 标记指数呈显著相关性(均 p 值<0.05)。
结论
高级别脑膜瘤的 3D FD 和空隙度较高,分形分析可能是预测脑膜瘤分级的有用影像学生物标志物。
关键点
分形维数(FD)和空隙度是分形分析中用于描述主体复杂性的两个参数,可能有助于预测脑膜瘤分级。
高级别脑膜瘤的 FD 和空隙度均高于低级别脑膜瘤,提示其复杂性和旋转方差更高。
使用临床和常规影像学特征的预测模型的判别值在结合 3D 分形特征预测脑膜瘤分级时有所提高。
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