Abstract
Qualitative radiologic MR imaging review affords limited differentiation among types of pediatric posterior fossa brain tumors and cannot detect histologic or molecular subtypes, which could help to stratify treatment. This study aimed to improve current posterior fossa discrimination of histologic tumor type by using support vector machine classifiers on quantitative MR imaging features. This retrospective study included preoperative MRI in 40 children with posterior fossa tumors (17 medulloblastomas, 16 pilocytic astrocytomas, and 7 ependymomas). Shape, histogram, and textural features were computed from contrast-enhanced T2WI and T1WI and diffusivity (ADC) maps. Combinations of features were used to train tumor-type-specific classifiers for medulloblastoma, pilocytic astrocytoma, and ependymoma types in separation and as a joint posterior fossa classifier. A tumor-subtype classifier was also produced for classic medulloblastoma. The performance of different classifiers was assessed and compared by using randomly selected subsets of training and test data. ADC histogram features (25th and 75th percentiles and skewness) yielded the best classification of tumor type (on average >95.8% of medulloblastomas, >96.9% of pilocytic astrocytomas, and >94.3% of ependymomas by using 8 training samples). The resulting joint posterior fossa classifier correctly assigned >91.4% of the posterior fossa tumors. For subtype classification, 89.4% of classic medulloblastomas were correctly classified on the basis of ADC texture features extracted from the Gray-Level Co-Occurence Matrix. Support vector machine-based classifiers using ADC histogram features yielded very good discrimination among pediatric posterior fossa tumor types, and ADC textural features show promise for further subtype discrimination. These findings suggest an added diagnostic value of quantitative feature analysis of diffusion MR imaging in pediatric neuro-oncology.
Highlights
BACKGROUND AND PURPOSEQualitative radiologic MR imaging review affords limited differentiation among types of pediatric posterior fossa brain tumors and cannot detect histologic or molecular subtypes, which could help to stratify treatment
Between-Group Comparison of Metrics and Features There was a substantial overlap among the 3 tumor types for all metrics and features on all histogram and Texture analysis (TA) features investigated
Tumor-Type Classifiers Average classification rates for those classifiers yielding at least 75% correct classification performance are shown in Table 6 for joint posterior fossa classifiers based on T2WI and T1WIϩGd features with 8 sample randomly selected training sets tested on the by training a series of pilocytic astrocytomas (PAs) classifiers on the basis of histogram features only (ADC 25th percentile) and another on the basis of texture features only (ADC entropy ϩ homogeneity) by using different bin sizes
Summary
This study aimed to improve current posterior fossa discrimination of histologic tumor type by using support vector machine classifiers on quantitative MR imaging features. The purpose of our study was to investigate the value of quantitative analysis of standard clinical MR imaging to discriminate the main types of pediatric posterior fossa tumors (PA, MB, and EP) and subtypes
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