Lung nodule malignancy classification using only radiologist-quantified image features as inputs to statistical learning algorithms: probing the Lung Image Database Consortium dataset with two statistical learning methods
| Autor: | Jerry F. Magnan, Matthew C. Hancock |
|---|---|
| Rok vydání: | 2016 |
| Předmět: |
Pathology
medicine.medical_specialty Contextual image classification business.industry Feature extraction Pattern recognition 02 engineering and technology Image segmentation Computer-Aided Diagnosis 030218 nuclear medicine & medical imaging Random forest 03 medical and health sciences 0302 clinical medicine Computer-aided diagnosis Feature (computer vision) 0202 electrical engineering electronic engineering information engineering Medical imaging medicine 020201 artificial intelligence & image processing Radiology Nuclear Medicine and imaging Artificial intelligence business Classifier (UML) |
| Zdroj: | Journal of Medical Imaging. 3:044504 |
| ISSN: | 2329-4302 |
| Popis: | In the assessment of nodules in CT scans of the lungs, a number of image-derived features are diagnostically relevant. Currently, many of these features are defined only qualitatively, so they are difficult to quantify from first principles. Nevertheless, these features (through their qualitative definitions and interpretations thereof) are often quantified via a variety of mathematical methods for the purpose of computer-aided diagnosis (CAD). To determine the potential usefulness of quantified diagnostic image features as inputs to a CAD system, we investigate the predictive capability of statistical learning methods for classifying nodule malignancy. We utilize the Lung Image Database Consortium dataset and only employ the radiologist-assigned diagnostic feature values for the lung nodules therein, as well as our derived estimates of the diameter and volume of the nodules from the radiologists' annotations. We calculate theoretical upper bounds on the classification accuracy that are achievable by an ideal classifier that only uses the radiologist-assigned feature values, and we obtain an accuracy of 85.74 [Formula: see text], which is, on average, 4.43% below the theoretical maximum of 90.17%. The corresponding area-under-the-curve (AUC) score is 0.932 ([Formula: see text]), which increases to 0.949 ([Formula: see text]) when diameter and volume features are included and has an accuracy of 88.08 [Formula: see text]. Our results are comparable to those in the literature that use algorithmically derived image-based features, which supports our hypothesis that lung nodules can be classified as malignant or benign using only quantified, diagnostic image features, and indicates the competitiveness of this approach. We also analyze how the classification accuracy depends on specific features and feature subsets, and we rank the features according to their predictive power, statistically demonstrating the top four to be spiculation, lobulation, subtlety, and calcification. |
| Databáze: | OpenAIRE |
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