MRI radiomics-based machine-learning classification of bone chondrosarcoma.

6533b86dfe1ef96bd12ca921

RESEARCH PRODUCT

MRI radiomics-based machine-learning classification of bone chondrosarcoma.

Angelo Gambino Luca Maria Sconfienza Alessandro Luzzati Salvatore Gitto Arturo Brunetti Antonina Parafioriti Angelo Lazzara Riccardo Spairani Lorenzo Ugga Carmelo Messina Maria Cristina Cortese Vito Chianca Renato Cuocolo Edoardo Zanchetta Domenico Albano Domenico Ricci

subject

Adult Male medicine.medical_specialty Artificial intelligence Appendicular skeleton Chondrosarcoma Feature selection Bone Neoplasms Bone and Bones Machine Learning Image Interpretation Computer-Assisted medicine Humans Radiology Nuclear Medicine and imaging Retrospective Studies Learning classifier system Receiver operating characteristic medicine.diagnostic_test business.industry Reproducibility of Results Magnetic resonance imaging General Medicine Middle Aged medicine.disease Magnetic Resonance Imaging Random forest Statistical classification medicine.anatomical_structure Texture analysis ROC Curve Cartilaginous tumor Female Radiology Chondrosarcoma Radiomic Neoplasm Grading business

description

Abstract Purpose To evaluate the diagnostic performance of machine learning for discrimination between low-grade and high-grade cartilaginous bone tumors based on radiomic parameters extracted from unenhanced magnetic resonance imaging (MRI). Methods We retrospectively enrolled 58 patients with histologically-proven low-grade/atypical cartilaginous tumor of the appendicular skeleton (n = 26) or higher-grade chondrosarcoma (n = 32, including 16 appendicular and 16 axial lesions). They were randomly divided into training (n = 42) and test (n = 16) groups for model tuning and testing, respectively. All tumors were manually segmented on T1-weighted and T2-weighted images by drawing bidimensional regions of interest, which were used for first order and texture feature extraction. A Random Forest wrapper was employed for feature selection. The resulting dataset was used to train a locally weighted ensemble classifier (AdaboostM1). Its performance was assessed via 10-fold cross-validation on the training data and then on the previously unseen test set. Thereafter, an experienced musculoskeletal radiologist blinded to histological and radiomic data qualitatively evaluated the cartilaginous tumors in the test group. Results After feature selection, the dataset was reduced to 4 features extracted from T1-weighted images. AdaboostM1 correctly classified 85.7 % and 75 % of the lesions in the training and test groups, respectively. The corresponding areas under the receiver operating characteristic curve were 0.85 and 0.78. The radiologist correctly graded 81.3 % of the lesions. There was no significant difference in performance between the radiologist and machine learning classifier (P = 0.453). Conclusions Our machine learning approach showed good diagnostic performance for classification of low-to-high grade cartilaginous bone tumors and could prove a valuable aid in preoperative tumor characterization.

year	journal	country	edition	language
2019-12-02	European journal of radiology

10.1016/j.ejrad.2020.109043 https://pubmed.ncbi.nlm.nih.gov/32438261