Abstract
To develop an MRI-based radiomics model to predict postlaminar optic nerve invasion (PLONI) in retinoblastoma (RB) and compare its predictive performance with subjective radiologists' assessment. We retrospectively enrolled 124 patients with pathologically proven RB (90 in training set and 34 in validation set) who had MRI scans before surgery. A radiomics model for predicting PLONI was developed by extracting quantitative imaging features from axial T2W images and contrast-enhanced T1W images in the training set. The Kruskal-Wallis test, least absolute shrinkage and selection operator regression, and recursive feature elimination were used for feature selection, where upon a radiomics model was built with a logistic regression (LR) classifier. The area under the curve (AUC) of the receiver operating characteristic (ROC) curve and the accuracy were assessed to evaluate the predictive performance in the training and validation set. The performance of the radiomics model was compared to radiologists' assessment by DeLong test. The AUC of the radiomics model for the prediction of PLONI was 0.928 in the training set and 0.841 in the validation set. Radiomics model produced better sensitivity than radiologists' assessment (81.1% vs 43.2% in training set, 82.4vs 52.9% in validation set). In all 124 patients, the AUC of the radiomics model was 0.897, while that of radiologists' assessment was 0.674 (p < 0.001, DeLong test). MRI-based radiomics model to predict PLONI in RB patients was shown to be superior to visual assessment with improved sensitivity and AUC, and may serve as a potential tool to guide personalized treatment.
Highlights
Retinoblastoma (RB) is the most common primary intraocular malignancy in children, with an incidence of approximately 1 in 15,000 to 20,000 live births worldwide[1]
By incorporating Magnetic resonance imaging (MRI)-based radiomics features, we constructed a radiomics model to predict postlaminar optic nerve invasion (PLONI) in patients with RB, and it was shown to be superior to visual assessment and may serve as a potential tool to guide personalized treatment
The radiomics signature derived from both CET1-WI and T2-weighted images (T2-WI) yielded the highest area under the curve (AUC) both in the training set and validation set: 0.928 and 0.841, respectively
Summary
Retinoblastoma (RB) is the most common primary intraocular malignancy in children, with an incidence of approximately 1 in 15,000 to 20,000 live births worldwide[1]. Distant metastasis is the principal cause of disease-related death among RB patients. The presence of postlaminar optic nerve invasion (PLONI) is a poor prognostic indicator and is associated with a higher likelihood of local recurrence or systemic metastasis[5,6,7,8]. Substantial changes have taken place in terms of treatment regimens, with the increasing use of eye-sparing treatment strategies[9, 10]. Eye-salvage treatment has major advantages with regard to patient care, the lack of histopathologic examination for the detection of risk factors creates a challenge when making the decision whether to select enucleation or eye-sparing treatment. Accurate preoperative information about PLONI is crucial for identifying surgical candidates among those considered eye-sparing treatment strategies
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