An Empirical Study of Deep Neural Networks for Glioma Detection from MRI Sequences

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Coupet, Matthieu, Urruty, Thierry, Leelanupab, Teerapong, Naudin, Mathieu, Bourdon, Pascal, Fernandez-Maloigne, Christine and Guillevin, Rémy (2020) An Empirical Study of Deep Neural Networks for Glioma Detection from MRI Sequences In: Neural Information Processing, Lecture Notes in Computer Science Springer International Publishing, 113-125.

Abstract

Gliomas are the most common central nervous system tumors. They represent 1.3% of cancers and are the 15th most common cancer for men and women. For the diagnosis of such pathology, doctors commonly use Magnetic Resonance Imaging (MRI) with different sequences. In this work, we propose a global framework using convolutional neural networks to create an intelligent assistant system for neurologists to diagnose the brain gliomas. Within this framework, we study the performance of different neural networks on four MRI modalities. This work allows us to highlight the most specific MRI sequences so that the presence of gliomas in brain tissue can be classified. We also visually analyze extracted features from the different modalities and networks with an aim to improve the interpretability and analysis of the performance obtained. We apply our study on the MRI sequences that are obtained from BraTS datasets.

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ระบบ อัตโนมัติ

Date Deposited:

2021-09-06 03:38:23

Last Modified:

2021-09-19 08:12:34

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