Dmitrii Lachinov scite author profile

2[0000−0002−2880−2887] , Evgeny Vasiliev 1[0000−0002−7949−1919] , and Vadim Turlapov 1[0000−0001−8484−0565]Abstract. MRI analysis takes central position in brain tumor diagnosis and treatment, thus it's precise evaluation is crucially important. However, it's 3D nature imposes several challenges, so the analysis is often performed on 2D projections that reduces the complexity, but increases bias. On the other hand, time consuming 3D evaluation, like, segmentation, is able to provide precise estimation of a number of valuable spatial characteristics, giving us understanding about the course of the disease. Recent studies, focusing on the segmentation task, report superior performance of Deep Learning methods compared to classical computer vision algorithms. But still, it remains a challenging problem. In this paper we present deep cascaded approach for automatic brain tumor segmentation. Similar to recent methods for object detection, our implementation is based on neural networks; we propose modifications to the 3D UNet architecture and augmentation strategy to efficiently handle multimodal MRI input, besides this we introduce approach to enhance segmentation quality with context obtained from models of the same topology operating on downscaled data. We evaluate presented approach on BraTS 2018 dataset and discuss results.

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The Effect of Pegcetacoplan Treatment on Photoreceptor Maintenance in Geographic Atrophy Monitored by Artificial Intelligence–Based OCT Analysis

Riedl

Vogl²,

Mai³

et al. 2022

Ophthalmology Retina

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Predicting Topographic Disease Progression and Treatment Response of Pegcetacoplan in Geographic Atrophy Quantified by Deep Learning

Vogl

Riedl

Mai

et al. 2023

Ophthalmology Retina

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Cephalometric Landmark Regression with Convolutional Neural Networks on 3D Computed Tomography Data

Lachinov

Getmanskaya

Турлапов

2020

Pattern Recognit. Image Anal.

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