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Your search keyword '"Helbich, T. H."' showing total 8 results
Start Over Author "Helbich, T. H." Topic breast cancer
8 results on '"Helbich, T. H."'

7. AI-enhanced simultaneous multiparametric 18F-FDG PET/MRI for accurate breast cancer diagnosis.

Author

Romeo, V., Clauser, P., Rasul, S., Kapetas, P., Gibbs, P., Baltzer, P. A. T., Hacker, M., Woitek, R., Helbich, T. H., and Pinker, K.

Subjects
MAGNETIC resonance mammography, CONTRAST-enhanced magnetic resonance imaging, CANCER diagnosis, RADIOMICS, FEATURE extraction, POSITRON emission tomography, MAGNETIC resonance imaging, BREAST tumor diagnosis, SUPPORT vector machines, DIGITAL image processing, ARTIFICIAL intelligence, MACHINE learning, MAMMOGRAMS, HEALTH outcome assessment, DIAGNOSTIC imaging, DESCRIPTIVE statistics, LONGITUDINAL method, ALGORITHMS
Abstract

Purpose: To assess whether a radiomics and machine learning (ML) model combining quantitative parameters and radiomics features extracted from simultaneous multiparametric 18F-FDG PET/MRI can discriminate between benign and malignant breast lesions. Methods: A population of 102 patients with 120 breast lesions (101 malignant and 19 benign) detected on ultrasound and/or mammography was prospectively enrolled. All patients underwent hybrid 18F-FDG PET/MRI for diagnostic purposes. Quantitative parameters were extracted from DCE (MTT, VD, PF), DW (mean ADC of breast lesions and contralateral breast parenchyma), PET (SUVmax, SUVmean, and SUVminimum of breast lesions, as well as SUVmean of the contralateral breast parenchyma), and T2-weighted images. Radiomics features were extracted from DCE, T2-weighted, ADC, and PET images. Different diagnostic models were developed using a fine Gaussian support vector machine algorithm which explored different combinations of quantitative parameters and radiomics features to obtain the highest accuracy in discriminating between benign and malignant breast lesions using fivefold cross-validation. The performance of the best radiomics and ML model was compared with that of expert reader review using McNemar's test. Results: Eight radiomics models were developed. The integrated model combining MTT and ADC with radiomics features extracted from PET and ADC images obtained the highest accuracy for breast cancer diagnosis (AUC 0.983), although its accuracy was not significantly higher than that of expert reader review (AUC 0.868) (p = 0.508). Conclusion: A radiomics and ML model combining quantitative parameters and radiomics features extracted from simultaneous multiparametric 18F-FDG PET/MRI images can accurately discriminate between benign and malignant breast lesions. [ABSTRACT FROM AUTHOR]

Published
2022
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8. AI-enhanced simultaneous multiparametric 18F-FDG PET/MRI for accurate breast cancer diagnosis

Author

Katja Pinker, Paola Clauser, Panagiotis Kapetas, M Hacker, Thomas H. Helbich, Sazan Rasul, Valeria Romeo, Pascal Baltzer, Ramona Woitek, Peter Gibbs, Woitek, Ramona [0000-0002-9146-9159], Apollo - University of Cambridge Repository, Romeo, V., Clauser, P., Rasul, S., Kapetas, P., Gibbs, P., Baltzer, P. A. T., Hacker, M., Woitek, R., Helbich, T. H., and Pinker, K.

Subjects
Artificial intelligence, Support Vector Machine, Population, Breast Neoplasms, 18f fdg pet, McNemar's test, Breast cancer, Radiomics, Support vector machine algorithm, Retrospective Studie, Fluorodeoxyglucose F18, Medicine, Mammography, Humans, Radiology, Nuclear Medicine and imaging, education, Retrospective Studies, education.field_of_study, medicine.diagnostic_test, business.industry, Ultrasound, General Medicine, medicine.disease, Magnetic Resonance Imaging, F-FDG PET/MRI, 18F-FDG PET/MRI, Female, Radiomic, business, Nuclear medicine, Breast Neoplasm, Human
Abstract

Funder: Horizon 2020 Framework Programme; doi: http://dx.doi.org/10.13039/100010661, Funder: Medical University of Vienna, PURPOSE: To assess whether a radiomics and machine learning (ML) model combining quantitative parameters and radiomics features extracted from simultaneous multiparametric 18F-FDG PET/MRI can discriminate between benign and malignant breast lesions. METHODS: A population of 102 patients with 120 breast lesions (101 malignant and 19 benign) detected on ultrasound and/or mammography was prospectively enrolled. All patients underwent hybrid 18F-FDG PET/MRI for diagnostic purposes. Quantitative parameters were extracted from DCE (MTT, VD, PF), DW (mean ADC of breast lesions and contralateral breast parenchyma), PET (SUVmax, SUVmean, and SUVminimum of breast lesions, as well as SUVmean of the contralateral breast parenchyma), and T2-weighted images. Radiomics features were extracted from DCE, T2-weighted, ADC, and PET images. Different diagnostic models were developed using a fine Gaussian support vector machine algorithm which explored different combinations of quantitative parameters and radiomics features to obtain the highest accuracy in discriminating between benign and malignant breast lesions using fivefold cross-validation. The performance of the best radiomics and ML model was compared with that of expert reader review using McNemar's test. RESULTS: Eight radiomics models were developed. The integrated model combining MTT and ADC with radiomics features extracted from PET and ADC images obtained the highest accuracy for breast cancer diagnosis (AUC 0.983), although its accuracy was not significantly higher than that of expert reader review (AUC 0.868) (p = 0.508). CONCLUSION: A radiomics and ML model combining quantitative parameters and radiomics features extracted from simultaneous multiparametric 18F-FDG PET/MRI images can accurately discriminate between benign and malignant breast lesions.

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