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1. Comparing methods of detecting and segmenting unruptured intracranial aneurysms on TOF-MRAS: The ADAM challenge

Author

Kimberley M. Timmins, Irene C. van der Schaaf, Edwin Bennink, Ynte M. Ruigrok, Xingle An, Michael Baumgartner, Pascal Bourdon, Riccardo De Feo, Tommaso Di Noto, Florian Dubost, Augusto Fava-Sanches, Xue Feng, Corentin Giroud, Inteneural Group, Minghui Hu, Paul F. Jaeger, Juhana Kaiponen, Michał Klimont, Yuexiang Li, Hongwei Li, Yi Lin, Timo Loehr, Jun Ma, Klaus H. Maier-Hein, Guillaume Marie, Bjoern Menze, Jonas Richiardi, Saifeddine Rjiba, Dhaval Shah, Suprosanna Shit, Jussi Tohka, Thierry Urruty, Urszula Walińska, Xiaoping Yang, Yunqiao Yang, Yin Yin, Birgitta K. Velthuis, and Hugo J. Kuijf

Subjects
Challenge, Segmentation, Detection, Aneurysms, Angiography, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Accurate detection and quantification of unruptured intracranial aneurysms (UIAs) is important for rupture risk assessment and to allow an informed treatment decision to be made. Currently, 2D manual measures used to assess UIAs on Time-of-Flight magnetic resonance angiographies (TOF-MRAs) lack 3D information and there is substantial inter-observer variability for both aneurysm detection and assessment of aneurysm size and growth. 3D measures could be helpful to improve aneurysm detection and quantification but are time-consuming and would therefore benefit from a reliable automatic UIA detection and segmentation method. The Aneurysm Detection and segMentation (ADAM) challenge was organised in which methods for automatic UIA detection and segmentation were developed and submitted to be evaluated on a diverse clinical TOF-MRA dataset.A training set (113 cases with a total of 129 UIAs) was released, each case including a TOF-MRA, a structural MR image (T1, T2 or FLAIR), annotation of any present UIA(s) and the centre voxel of the UIA(s). A test set of 141 cases (with 153 UIAs) was used for evaluation. Two tasks were proposed: (1) detection and (2) segmentation of UIAs on TOF-MRAs. Teams developed and submitted containerised methods to be evaluated on the test set. Task 1 was evaluated using metrics of sensitivity and false positive count. Task 2 was evaluated using dice similarity coefficient, modified hausdorff distance (95th percentile) and volumetric similarity. For each task, a ranking was made based on the average of the metrics.In total, eleven teams participated in task 1 and nine of those teams participated in task 2. Task 1 was won by a method specifically designed for the detection task (i.e. not participating in task 2). Based on segmentation metrics, the top two methods for task 2 performed statistically significantly better than all other methods. The detection performance of the top-ranking methods was comparable to visual inspection for larger aneurysms. Segmentation performance of the top ranking method, after selection of true UIAs, was similar to interobserver performance. The ADAM challenge remains open for future submissions and improved submissions, with a live leaderboard to provide benchmarking for method developments at https://adam.isi.uu.nl/.

Published
2021
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2. Robust forgery detection for compressed images using CNN supervision

Author

Boubacar Diallo, Thierry Urruty, Pascal Bourdon, and Christine Fernandez-Maloigne

Subjects
Forgery image detection, Compression, Camera model identification, Convolutional neural networks supervision, Criminal law and procedure, K5000-5582
Abstract

Images available on online sharing platforms have a high probability of being modified, with additional global transformations such as compression, resizing or filtering covering the possible alteration. Such manipulations impose many constraints on forgery detection algorithms. This article presents a framework improving robustness for image forgery detection. The most important step of our framework is to take into account the image quality corresponding to the chosen application. Therefore, we relied on a camera identification model based on convolutional neural networks. Lossy compression such as JPEG being considered as the most common type of intentional or inadvertent concealment of image forgery, that leads us to experiment our proposal on this manipulation. Thus, our trained CNN is fed with a mixture of different qualities of compressed and uncompressed images. Experimental results showed the importance of this step to improve the effectiveness of our approach against recent literature approaches. To better interpret our trained CNN, we proposed an in-depth supervision by first a visualization of the layer and an experimental analysis of the influence of the learned features. This analysis led us to a more robust and accurate framework. Finally, we applied this improved system on an image forgery detection application and showed some promising results.

Published
2020
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3. Toward Content-Based Hyperspectral Remote Sensing Image Retrieval (CB-HRSIR): A Preliminary Study Based on Spectral Sensitivity Functions

Author

Olfa Ben-Ahmed, Thierry Urruty, Noël Richard, and Christine Fernandez-Maloigne

Subjects
hyperspectral imagery, spectral sensitivity function, CBIR, CNN, Science
Abstract

With the emergence of huge volumes of high-resolution Hyperspectral Images (HSI) produced by different types of imaging sensors, analyzing and retrieving these images require effective image description and quantification techniques. Compared to remote sensing RGB images, HSI data contain hundreds of spectral bands (varying from the visible to the infrared ranges) allowing profile materials and organisms that only hyperspectral sensors can provide. In this article, we study the importance of spectral sensitivity functions in constructing discriminative representation of hyperspectral images. The main goal of such representation is to improve image content recognition by focusing the processing on only the most relevant spectral channels. The underlying hypothesis is that for a given category, the content of each image is better extracted through a specific set of spectral sensitivity functions. Those spectral sensitivity functions are evaluated in a Content-Based Image Retrieval (CBIR) framework. In this work, we propose a new HSI dataset for the remote sensing community, specifically designed for Hyperspectral remote sensing retrieval and classification. Exhaustive experiments have been conducted on this dataset and on a literature dataset. Obtained retrieval results prove that the physical measurements and optical properties of the scene contained in the HSI contribute in an accurate image content description than the information provided by the RGB image presentation.

Published
2019
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13. Long-term cognitive decline prediction based on multi-modal data using Multimodal3DSiameseNet: transfer learning from Alzheimer’s disease to Parkinson’s disease

Author

Cécilia Ostertag, Muriel Visani, Thierry Urruty, and Marie Beurton-Aimar

Subjects
Biomedical Engineering, Health Informatics, Radiology, Nuclear Medicine and imaging, Surgery, General Medicine, Computer Vision and Pattern Recognition, Computer Graphics and Computer-Aided Design, Computer Science Applications
Published
2023

16. A multi-sequences MRI deep framework study applied to glioma classfication

Author

Matthieu Coupet, Thierry Urruty, Teerapong Leelanupab, Mathieu Naudin, Pascal Bourdon, Christine Fernandez Maloigne, and Rémy Guillevin

Subjects
Computer Networks and Communications, Hardware and Architecture, Media Technology, Software
Abstract

Glioma is one of the most important central nervous system tumors, ranked 15th in the most common cancer for men and women. Magnetic Resonance Imaging (MRI) represents a common tool for medical experts to the diagnosis of glioma. A set of multi-sequences from an MRI is selected according to the severity of the pathology. Our proposed approach aims moreto create a computer-aided system that is capable of helping morethe expert diagnose the brain gliomas. moreWe propose a supervised learning regime based on a convolutional neural network based framework and transfer learning techniques. Our research morefocuses on the performance of different pre-trained deep learning models with respect to different MRI sequences. We highlight the best combinations of such model-MRI sequence couple for our specific task of classifying healthy brain against brain with glioma. moreWe also propose to visually analyze the extracted deep features for studying the existing relation of the MRI sequences and models. This interpretability analysis gives some hints for medical expert to understand the diagnosis made by the models. Our study is based on the well-known BraTS datasets including multi-sequence images and expert diagnosis.

Published
2022

40. Usefulness of Functional MRI Textures in the Evaluation of Renal Function

Author

Israa Alnazer, Pascal Bourdon, Mohamad Khalil, Thierry Urruty, Ahmad Shahin, Mathieu Naudin, Carole Guillevin, Omar Falou, and Christine Fernandez-Maloigne

Subjects
Kidney, business.industry, Renal function, Pattern recognition, Linear discriminant analysis, Logistic regression, medicine.disease, Naive Bayes classifier, medicine.anatomical_structure, Principal component analysis, Medicine, Effective diffusion coefficient, Artificial intelligence, business, Kidney disease
Abstract

Non-invasive assessment of kidney function and structure remains of clinical importance in the diagnosis and prognosis of chronic kidney disease. This work aims to evaluate the role of textures extracted from functional magnetic resonance imaging in renal dysfunction detection by differentiating healthy and chronic kidney disease patients. Textural descriptors are extracted from apparent diffusion coefficient, blood oxygenation level dependent images and T2 maps. Synthetic resampling technique is performed to account for imbalanced classes and increase the variety of sample domain. Principal component analysis projection is applied to eliminate irrelevant features and compact the dataset. The performance of linear discriminant analysis, logistic regression and Naive Bayes classifiers in terms of discriminating healthy and affected kidney is evaluated. The results of this preliminary study support the fact that chronic kidney disease affects texture parameters significantly. Textures-based predictive models have shown promise in accurate and safe renal function evaluation (accuracy, sensitivity and AUC up to 98%, 98% and 1 respectively).

Published
2021

43. Glasgow University at TRECVID 2008.

Author

P. Punitha 0001, Thierry Urruty, Yue Feng, Martin Halvey, Anuj Goyal, David Hannah, Iraklis A. Klampanos, Vassilios Stathopoulos 0002, Robert Villa, and Joemon M. Jose

Published
2008

44. Content-based image retrieval: Colorfulness and Depth visual perception quantification

Author

Arnaud Bour, Philippe Carré, Lionel Bombrun, Solene Vilfroy, and Thierry Urruty

Subjects
Lightness, Visual perception, business.industry, Computer science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Colorfulness, Content-based image retrieval, Visualization, Impression, Depth map, Computer vision, Artificial intelligence, business, Image retrieval
Abstract

This study focuses specifically on content-based image retrieval. The objective being to characterize the images according to their content, in the form of an index, a score which will be used for the manipulation of the images.We propose two visual perception quantification methods, one for colorfulness and one for depth. In terms of quantifying an impression, it was necessary to set up objective and rigorous criteria reflecting a sometimes subjective concept.Based on saturation, lightness and color disparity, we propose a framework that assigns to image an index between 0 and 100 to convey the impression that the image is very colorful or not. While in the case of depth, the estimate of a depth map will serve as a starting point. We estimate that the impression of depth is linked to the spread of the elements that make up the image from the farthest to the closest.

Published
2021

45. Recent Advances in Medical Image Processing for the Evaluation of Chronic Kidney Disease

Author

Mohamad Khalil, Omar Falou, Christine Fernandez-Maloigne, Israa Alnazer, Thierry Urruty, Pascal Bourdon, Ahmad Shahin, Synthèse et analyse d'images (XLIM-ASALI), XLIM (XLIM), and Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)-Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
medicine.medical_specialty, Renal function, Health Informatics, Image processing, urologic and male genital diseases, Scintigraphy, 030218 nuclear medicine & medical imaging, Machine Learning, 03 medical and health sciences, 0302 clinical medicine, [INFO.INFO-TS]Computer Science [cs]/Signal and Image Processing, Artificial Intelligence, Image Processing, Computer-Assisted, medicine, Medical imaging, Humans, Radiology, Nuclear Medicine and imaging, Medical physics, Segmentation, Renal Insufficiency, Chronic, ComputingMilieux_MISCELLANEOUS, Modalities, Radiological and Ultrasound Technology, medicine.diagnostic_test, business.industry, Magnetic resonance imaging, medicine.disease, Magnetic Resonance Imaging, Computer Graphics and Computer-Aided Design, 3. Good health, Computer Vision and Pattern Recognition, business, 030217 neurology & neurosurgery, Kidney disease
Abstract

Assessment of renal function and structure accurately remains essential in the diagnosis and prognosis of Chronic Kidney Disease (CKD). Advanced imaging, including Magnetic Resonance Imaging (MRI), Ultrasound Elastography (UE), Computed Tomography (CT) and scintigraphy (PET, SPECT) offers the opportunity to non-invasively retrieve structural, functional and molecular information that could detect changes in renal tissue properties and functionality. Currently, the ability of artificial intelligence to turn conventional medical imaging into a full-automated diagnostic tool is widely investigated. In addition to the qualitative analysis performed on renal medical imaging, texture analysis was integrated with machine learning techniques as a quantification of renal tissue heterogeneity, providing a promising complementary tool in renal function decline prediction. Interestingly, deep learning holds the ability to be a novel approach of renal function diagnosis. This paper proposes a survey that covers both qualitative and quantitative analysis applied to novel medical imaging techniques to monitor the decline of renal function. First, we summarize the use of different medical imaging modalities to monitor CKD and then, we show the ability of Artificial Intelligence (AI) to guide renal function evaluation from segmentation to disease prediction, discussing how texture analysis and machine learning techniques have emerged in recent clinical researches in order to improve renal dysfunction monitoring and prediction. The paper gives a summary about the role of AI in renal segmentation.

Published
2021

48. Renal Function Evaluation Survey: Artificial Intelligence for the Next Decade?

Author

Omar Falou, Ahmad Shahin, Mohamad Khalil, Thierry Urruty, Christine Fernandez-Maloigne, Pascal Bourdon, Israa Alnazer, Synthèse et analyse d'images (XLIM-ASALI), XLIM (XLIM), and Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)-Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Kidney, Computer science, business.industry, Deep learning, media_common.quotation_subject, 030232 urology & nephrology, Renal function, urologic and male genital diseases, medicine.disease, 3. Good health, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Qualitative analysis, medicine.anatomical_structure, [INFO.INFO-TS]Computer Science [cs]/Signal and Image Processing, Health care, medicine, Medical imaging, Artificial intelligence, business, Function (engineering), ComputingMilieux_MISCELLANEOUS, Kidney disease, media_common
Abstract

Accurate assessment of renal microstructure and function remains a key point for the prediction and diagnosis of chronic kidney disease (CKD). Applications of novel medical imaging techniques offer a non-invasive and safer tool for analyzing CKD as it allows health care providers to identify morphological, functional and molecular information that detects changes in renal tissue properties and functionalities. Recently, the ability of artificial intelligence to address information retrieval and other critical issues in big medical data analytics has led to a great interest in CKD diagnosis. Besides qualitative analysis of renal medical imaging, texture analysis combined with machine learning has emerged as a promising technique to quantify renal tissue heterogeneity, thus providing a complementary tool for renal function decline prediction. Most importantly, deep learning holds the potential to be a novel approach for renal dysfunction monitoring. This paper proposes a survey focusing on the most recent approaches for using texture analysis and machine learning techniques that can be integrated in clinical research in order to improve renal dysfunction diagnosis and prognosis.

Published
2020

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

Author

Rémy Guillevin, Christine Fernandez-Maloigne, Matthieu Coupet, Mathieu Naudin, Thierry Urruty, Teerapong Leelanupab, Pascal Bourdon, Synthèse et analyse d'images (XLIM-ASALI), XLIM (XLIM), and Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)-Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Computer science, Central nervous system, 02 engineering and technology, Brain tissue, Convolutional neural network, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Empirical research, [INFO.INFO-TS]Computer Science [cs]/Signal and Image Processing, Glioma, 0202 electrical engineering, electronic engineering, information engineering, medicine, ComputingMilieux_MISCELLANEOUS, medicine.diagnostic_test, Artificial neural network, business.industry, Cancer, Magnetic resonance imaging, Pattern recognition, medicine.disease, Brain gliomas, 3. Good health, medicine.anatomical_structure, Deep neural networks, 020201 artificial intelligence & image processing, Artificial intelligence, business
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.

Published
2020

50. CenterlineNet: Automatic Coronary Artery Centerline Extraction for Computed Tomographic Angiographic Images Using Convolutional Neural Network Architectures

Author

Christine Fernandez-Maloigne, Luc-Philippe Christiaens, Rémy Guillevin, Saifeddine Rjiba, Thierry Urruty, Roger Delepaule, Pascal Bourdon, Université de Poitiers, Université de Poitiers - Faculté de Sciences fondamentales et appliquées, Synthèse et analyse d'images (XLIM-ASALI), XLIM (XLIM), Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)-Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS), and Centre hospitalier universitaire de Poitiers (CHU Poitiers)

Subjects
Aorta, medicine.diagnostic_test, Computer science, business.industry, Pipeline (computing), Deep learning, Feature extraction, Pattern recognition, Coronary stenosis, Convolutional neural network, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Tree (data structure), 0302 clinical medicine, medicine.anatomical_structure, [INFO.INFO-TS]Computer Science [cs]/Signal and Image Processing, medicine.artery, medicine, Artificial intelligence, business, 030217 neurology & neurosurgery, ComputingMilieux_MISCELLANEOUS, Computed tomography angiography, Artery
Abstract

The prevention of cardiovascular diseases starts by a thorough examination of the coronary artery vessels for atherosclerotic plaques existence. By combining deep learning convolutional Neural Network (CNN) architectures and the biological knowledge, we introduce a novel method for the automatic extraction of coronary artery centerlines in Computed Tomography Angiography (CTA) data. The proposed method is based on a 3D convolutional neural network used as a local vessel centerline detector to extract the main and side branches of the coronary artery tree. Coupled with a preprocessing vessel enhancing step, the model takes advantage of the analytical analysis of the former as well as the feature extraction ability of the CNN. In addition, automatic aorta and heart region detections are also performed to delineate the origin and the extent of the coronary tree and phase out the false predictions. We investigate the use of Coronary Stenosis’ Detection and Quantification (2012) Database to enrich the training process while ensuring the homogeneity of the scans. Our work offers a fully automatic, CNN based, pipeline for coronary artery centerline detection while circumventing the scarcity of the medical data in hand. Its validation against the ground truth annotation from the Rotterdam Coronary Artery Algorithm Evaluation Framework yields a retrieval ratio of 95% and 93%.

Published
2020

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