Anastasia Oikonomou scite author profile

Highlights Early diagnosis of COVID-19 is of paramount importance to break the chain of transition and flatten the epidemic curve. Imaging techniques provide higher sensitivity, and they are more easily accessible, compared to the current gold standard. Capsule Networks can efficiently handle availability of limited datasets in case of COVID-19 pandemic. The proposed COVID-CAPS framework outperforms its CNN-based counterparts with far less number of trainable parameters. A new dataset is constructed from an external dataset of X-ray images for pre-training the proposed COVID-CAPS.

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Radiomics-based Prognosis Analysis for Non-Small Cell Lung Cancer

Zhang

Oikonomou

Wong

et al. 2017

Sci Rep

222

193

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Radiomics characterizes tumor phenotypes by extracting large numbers of quantitative features from radiological images. Radiomic features have been shown to provide prognostic value in predicting clinical outcomes in several studies. However, several challenges including feature redundancy, unbalanced data, and small sample sizes have led to relatively low predictive accuracy. In this study, we explore different strategies for overcoming these challenges and improving predictive performance of radiomics-based prognosis for non-small cell lung cancer (NSCLC). CT images of 112 patients (mean age 75 years) with NSCLC who underwent stereotactic body radiotherapy were used to predict recurrence, death, and recurrence-free survival using a comprehensive radiomics analysis. Different feature selection and predictive modeling techniques were used to determine the optimal configuration of prognosis analysis. To address feature redundancy, comprehensive analysis indicated that Random Forest models and Principal Component Analysis were optimum predictive modeling and feature selection methods, respectively, for achieving high prognosis performance. To address unbalanced data, Synthetic Minority Over-sampling technique was found to significantly increase predictive accuracy. A full analysis of variance showed that data endpoints, feature selection techniques, and classifiers were significant factors in affecting predictive accuracy, suggesting that these factors must be investigated when building radiomics-based predictive models for cancer prognosis.

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Anastasia Oikonomou

COVID-CAPS: A capsule network-based framework for identification of COVID-19 cases from X-ray images

Radiomics-based Prognosis Analysis for Non-Small Cell Lung Cancer

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