Deep learning-based methods for prostate segmentation in magnetic resonance imaging

Federica Vernuccio, Giuseppe Cutaia, Alessandro Stefano, Albert Comelli, Alessandro Stefano, Albert Comelli, Navdeep Dahiya, Anthony Yezzi, Alberto Bruno, Giuseppe Salvaggio, Marzia Portoghese

Risultato della ricerca: Articlepeer review

Abstract

Magnetic Resonance Imaging-based prostate segmentation is an essential task for adaptive radiotherapy and for radiomics studies whose purpose is to identify associations between imaging features and patient outcomes. Because manual delineation is a time-consuming task, we present three deep-learning (DL) approaches, namely UNet, efficient neural network (ENet), and efficient residual factorized convNet (ERFNet), whose aim is to tackle the fully-automated, real-time, and 3D delineation process of the prostate gland on T2-weighted MRI. While UNet is used in many biomedical image delineation applications, ENet and ERFNet are mainly applied in self-driving cars to compensate for limited hardware availability while still achieving accurate segmentation. We apply these models to a limited set of 85 manual prostate segmentations using the k-fold validation strategy and the Tversky loss function and we compare their results. We find that ENet and UNet are more accurate than ERFNet, with ENet much faster than UNet. Specifically, ENet obtains a dice similarity coefficient of 90.89% and a segmentation time of about 6 s using central processing unit (CPU) hardware to simulate real clinical conditions where graphics processing unit (GPU) is not always available. In conclusion, ENet could be efficiently applied for prostate delineation even in small image training datasets with potential benefit for patient management personalization.
Lingua originaleEnglish
pagine (da-a)1-13
Numero di pagine13
RivistaAPPLIED SCIENCES
Volume11
Stato di pubblicazionePublished - 2021

All Science Journal Classification (ASJC) codes

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  • Instrumentation
  • ???subjectarea.asjc.2200.2200???
  • Process Chemistry and Technology
  • Computer Science Applications
  • Fluid Flow and Transfer Processes

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