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10 results on '"Joskowicz, Leo"'

1. BiometryNet: Landmark-based Fetal Biometry Estimation from Standard Ultrasound Planes

Author

Avisdris, Netanell, Joskowicz, Leo, Dromey, Brian, David, Anna L., Peebles, Donald M., Stoyanov, Danail, Bashat, Dafna Ben, and Bano, Sophia

Subjects
FOS: Computer and information sciences, Computer Science - Machine Learning, Computer Vision and Pattern Recognition (cs.CV), Image and Video Processing (eess.IV), Computer Science - Computer Vision and Pattern Recognition, FOS: Electrical engineering, electronic engineering, information engineering, Electrical Engineering and Systems Science - Image and Video Processing, Machine Learning (cs.LG)
Abstract

Fetal growth assessment from ultrasound is based on a few biometric measurements that are performed manually and assessed relative to the expected gestational age. Reliable biometry estimation depends on the precise detection of landmarks in standard ultrasound planes. Manual annotation can be time-consuming and operator dependent task, and may results in high measurements variability. Existing methods for automatic fetal biometry rely on initial automatic fetal structure segmentation followed by geometric landmark detection. However, segmentation annotations are time-consuming and may be inaccurate, and landmark detection requires developing measurement-specific geometric methods. This paper describes BiometryNet, an end-to-end landmark regression framework for fetal biometry estimation that overcomes these limitations. It includes a novel Dynamic Orientation Determination (DOD) method for enforcing measurement-specific orientation consistency during network training. DOD reduces variabilities in network training, increases landmark localization accuracy, thus yields accurate and robust biometric measurements. To validate our method, we assembled a dataset of 3,398 ultrasound images from 1,829 subjects acquired in three clinical sites with seven different ultrasound devices. Comparison and cross-validation of three different biometric measurements on two independent datasets shows that BiometryNet is robust and yields accurate measurements whose errors are lower than the clinically permissible errors, outperforming other existing automated biometry estimation methods. Code is available at https://github.com/netanellavisdris/fetalbiometry., Comment: 13 pages, 6 figures, Accepted to MICCAI 2022

Published
2022
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2. Contour Dice loss for structures with Fuzzy and Complex Boundaries in Fetal MRI

Author

Fadida, Bella Specktor, Yehuda, Bossmat, Sourani, Daphna Link, Sira, Liat Ben, Bashat, Dafna Ben, and Joskowicz, Leo

Subjects
FOS: Computer and information sciences, Computer Vision and Pattern Recognition (cs.CV), Image and Video Processing (eess.IV), Computer Science - Computer Vision and Pattern Recognition, FOS: Electrical engineering, electronic engineering, information engineering, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Volumetric measurements of fetal structures in MRI are time consuming and error prone and therefore require automatic segmentation. Placenta segmentation and accurate fetal brain segmentation for gyrification assessment are particularly challenging because of the placenta fuzzy boundaries and the fetal brain cortex complex foldings. In this paper, we study the use of the Contour Dice loss for both problems and compare it to other boundary losses and to the combined Dice and Cross-Entropy loss. The loss is computed efficiently for each slice via erosion, dilation and XOR operators. We describe a new formulation of the loss akin to the Contour Dice metric. The combination of the Dice loss and the Contour Dice yielded the best performance for placenta segmentation. For fetal brain segmentation, the best performing loss was the combined Dice with Cross-Entropy loss followed by the Dice with Contour Dice loss, which performed better than other boundary losses., Comment: 15 pages, 7 figures, Accepted to ECCV-MCV 2022: https://mcv-workshop.github.io/

Published
2022
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3. Deep Q-Network-Driven Catheter Segmentation in 3D US by Hybrid Constrained Semi-supervised Learning and Dual-UNet

Author

Yang, Hongxu, Shan, Caifeng, Kolen, Alexander F., de With, Peter H.N., Martel, Anne L., Abolmaesumi, Purang, Stoyanov, Danail, Mateus, Diana, Zuluaga, Maria A., Zhou, S. Kevin, Racoceanu, Daniel, Joskowicz, Leo, Video Coding & Architectures, Center for Care & Cure Technology Eindhoven, Eindhoven MedTech Innovation Center, and EAISI Health

Subjects
Scheme (programming language), Dual-UNet, Computer science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Q-learning, 02 engineering and technology, Semi-supervised learning, Catheter segmentation, Convolutional neural network, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, 0202 electrical engineering, electronic engineering, information engineering, medicine, Leverage (statistics), Segmentation, 3D ultrasound, computer.programming_language, Deep reinforcement learning, medicine.diagnostic_test, business.industry, Supervised learning, Pattern recognition, Hybrid constraint, 020201 artificial intelligence & image processing, Artificial intelligence, business, computer
Abstract

Catheter segmentation in 3D ultrasound is important for computer-assisted cardiac intervention. However, a large amount of labeled images are required to train a successful deep convolutional neural network (CNN) to segment the catheter, which is expensive and time-consuming. In this paper, we propose a novel catheter segmentation approach, which requests fewer annotations than the supervised learning method, but nevertheless achieves better performance. Our scheme considers a deep Q learning as the pre-localization step, which avoids voxel-level annotation and which can efficiently localize the target catheter. With the detected catheter, patch-based Dual-UNet is applied to segment the catheter in 3D volumetric data. To train the Dual-UNet with limited labeled images and leverage information of unlabeled images, we propose a novel semi-supervised scheme, which exploits unlabeled images based on hybrid constraints from predictions. Experiments show the proposed scheme achieves a higher performance than state-of-the-art semi-supervised methods, while it demonstrates that our method is able to learn from large-scale unlabeled images.

Published
2020

4. Hierarchical Bayesian Regression for Multi-site Normative Modeling of Neuroimaging Data

Author

Kia, S.M., Huijsdens, H., Dinga, R., Wolfers, T., Mennes, M., Andreassen, O.A., Westlye, L.T., Beckmann, C.F., Marquand, A.F., L. Martel, Anne, Stoyanov, Danail, A. Zuluaga, Maria, Racoceanu, Daniel, Abolmaesumi, Purang, Mateus, Diana, Zhou, S. Kevin, Joskowicz, Leo, and Cognitive Science & AI

Subjects
0303 health sciences, Small data, Computer science, business.industry, Multi site, Variation (game tree), Machine learning, computer.software_genre, Big data, 03 medical and health sciences, Range (mathematics), 0302 clinical medicine, Neuroimaging, Normative, Precision psychiatry, Artificial intelligence, Bayesian linear regression, business, computer, 030217 neurology & neurosurgery, 030304 developmental biology
Abstract

Clinical neuroimaging has recently witnessed explosive growth in data availability which brings studying heterogeneity in clinical cohorts to the spotlight. Normative modeling is an emerging statistical tool for achieving this objective. However, its application remains technically challenging due to difficulties in properly dealing with nuisance variation, for example due to variability in image acquisition devices. Here, in a fully probabilistic framework, we propose an application of hierarchical Bayesian regression (HBR) for multi-site normative modeling. Our experimental results confirm the superiority of HBR in deriving more accurate normative ranges on large multi-site neuroimaging data compared to widely used methods. This provides the possibility i) to learn the normative range of structural and functional brain measures on large multi-site data; ii) to recalibrate and reuse the learned model on local small data; therefore, HBR closes the technical loop for applying normative modeling as a medical tool for the diagnosis and prognosis of mental disorders.

Published
2020

10. Deep Retinal Image Understanding

Author

Pablo Arbeláez, Jordi Pont-Tuset, Kevis-Kokitsi Maninis, Luc Van Gool, Ourselin, Sébastien, Joskowicz, Leo, Sabuncu, Mert R, Ünal, Gözde B, and Wells, William

Subjects
FOS: Computer and information sciences, Contextual image classification, genetic structures, Computer science, business.industry, Deep learning, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition, 02 engineering and technology, PSI_VISICS, Fundus (eye), Convolutional neural network, Object detection, Retinal image, 030218 nuclear medicine & medical imaging, Set (abstract data type), 03 medical and health sciences, 0302 clinical medicine, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Computer vision, Artificial intelligence, business
Abstract

This paper presents Deep Retinal Image Understanding (DRIU), a unified framework of retinal image analysis that provides both retinal vessel and optic disc segmentation. We make use of deep Convolutional Neural Networks (CNNs), which have proven revolutionary in other fields of computer vision such as object detection and image classification, and we bring their power to the study of eye fundus images. DRIU uses a base network architecture on which two set of specialized layers are trained to solve both the retinal vessel and optic disc segmentation. We present experimental validation, both qualitative and quantitative, in four public datasets for these tasks. In all of them, DRIU presents super-human performance, that is, it shows results more consistent with a gold standard than a second human annotator used as control., Comment: MICCAI 2016 Camera Ready

Published
2016
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