Enhancing Trust in Clinically Significant Prostate Cancer Prediction with Multiple Magnetic Resonance Imaging Modalities

In the United States, prostate cancer is the second leading cause of deaths in males with a predicted 35,250 deaths in 2024. However, most diagnoses are non-lethal and deemed clinically insignificant which means that the patient will likely not be impacted by the cancer over their lifetime. As a res...

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Veröffentlicht in:	arXiv.org 2024-11
Hauptverfasser:	Ng, Benjamin, Chi-en, Amy Tai, Zeng, E Zhixuan, Wong, Alexander
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Schlagworte:	Accuracy Artificial neural networks Clinical significance Fatalities Machine learning Magnetic resonance imaging Medical imaging Predictions Prostate cancer Scientists
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description	In the United States, prostate cancer is the second leading cause of deaths in males with a predicted 35,250 deaths in 2024. However, most diagnoses are non-lethal and deemed clinically insignificant which means that the patient will likely not be impacted by the cancer over their lifetime. As a result, numerous research studies have explored the accuracy of predicting clinical significance of prostate cancer based on magnetic resonance imaging (MRI) modalities and deep neural networks. Despite their high performance, these models are not trusted by most clinical scientists as they are trained solely on a single modality whereas clinical scientists often use multiple magnetic resonance imaging modalities during their diagnosis. In this paper, we investigate combining multiple MRI modalities to train a deep learning model to enhance trust in the models for clinically significant prostate cancer prediction. The promising performance and proposed training pipeline showcase the benefits of incorporating multiple MRI modalities for enhanced trust and accuracy.
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subjects	Accuracy Artificial neural networks Clinical significance Fatalities Machine learning Magnetic resonance imaging Medical imaging Predictions Prostate cancer Scientists
title	Enhancing Trust in Clinically Significant Prostate Cancer Prediction with Multiple Magnetic Resonance Imaging Modalities
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