Your search keyword '"Glatard, T."' showing total 6 results

1. The first MICCAI challenge on PET tumor segmentation.

Author

Hatt M, Laurent B, Ouahabi A, Fayad H, Tan S, Li L, Lu W, Jaouen V, Tauber C, Czakon J, Drapejkowski F, Dyrka W, Camarasu-Pop S, Cervenansky F, Girard P, Glatard T, Kain M, Yao Y, Barillot C, Kirov A, and Visvikis D

Subjects

Bayes Theorem, Fuzzy Logic, Humans, Machine Learning, Neural Networks, Computer, Phantoms, Imaging, Predictive Value of Tests, Sensitivity and Specificity, Algorithms, Image Processing, Computer-Assisted methods, Neoplasms diagnostic imaging, Positron-Emission Tomography methods

Abstract

Introduction: Automatic functional volume segmentation in PET images is a challenge that has been addressed using a large array of methods. A major limitation for the field has been the lack of a benchmark dataset that would allow direct comparison of the results in the various publications. In the present work, we describe a comparison of recent methods on a large dataset following recommendations by the American Association of Physicists in Medicine (AAPM) task group (TG) 211, which was carried out within a MICCAI (Medical Image Computing and Computer Assisted Intervention) challenge., Materials and Methods: Organization and funding was provided by France Life Imaging (FLI). A dataset of 176 images combining simulated, phantom and clinical images was assembled. A website allowed the participants to register and download training data (n = 19). Challengers then submitted encapsulated pipelines on an online platform that autonomously ran the algorithms on the testing data (n = 157) and evaluated the results. The methods were ranked according to the arithmetic mean of sensitivity and positive predictive value., Results: Sixteen teams registered but only four provided manuscripts and pipeline(s) for a total of 10 methods. In addition, results using two thresholds and the Fuzzy Locally Adaptive Bayesian (FLAB) were generated. All competing methods except one performed with median accuracy above 0.8. The method with the highest score was the convolutional neural network-based segmentation, which significantly outperformed 9 out of 12 of the other methods, but not the improved K-Means, Gaussian Model Mixture and Fuzzy C-Means methods., Conclusion: The most rigorous comparative study of PET segmentation algorithms to date was carried out using a dataset that is the largest used in such studies so far. The hierarchy amongst the methods in terms of accuracy did not depend strongly on the subset of datasets or the metrics (or combination of metrics). All the methods submitted by the challengers except one demonstrated good performance with median accuracy scores above 0.8., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

2. Head-to-head comparison of two popular cortical thickness extraction algorithms: a cross-sectional and longitudinal study.

Author

Redolfi A, Manset D, Barkhof F, Wahlund LO, Glatard T, Mangin JF, and Frisoni GB

Subjects

Aged, Alzheimer Disease diagnosis, Alzheimer Disease pathology, Alzheimer Disease physiopathology, Brain physiopathology, Cognitive Dysfunction diagnosis, Cognitive Dysfunction pathology, Cognitive Dysfunction physiopathology, Cross-Sectional Studies, Female, Hippocampus pathology, Hippocampus physiopathology, Humans, Longitudinal Studies, Male, ROC Curve, Sensitivity and Specificity, Algorithms, Brain pathology, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging

Abstract

Background and Purpose: The measurement of cortical shrinkage is a candidate marker of disease progression in Alzheimer's. This study evaluated the performance of two pipelines: Civet-CLASP (v1.1.9) and Freesurfer (v5.3.0)., Methods: Images from 185 ADNI1 cases (69 elderly controls (CTR), 37 stable MCI (sMCI), 27 progressive MCI (pMCI), and 52 Alzheimer (AD) patients) scanned at baseline, month 12, and month 24 were processed using the two pipelines and two interconnected e-infrastructures: neuGRID (https://neugrid4you.eu) and VIP (http://vip.creatis.insa-lyon.fr). The vertex-by-vertex cross-algorithm comparison was made possible applying the 3D gradient vector flow (GVF) and closest point search (CPS) techniques., Results: The cortical thickness measured with Freesurfer was systematically lower by one third if compared to Civet's. Cross-sectionally, Freesurfer's effect size was significantly different in the posterior division of the temporal fusiform cortex. Both pipelines were weakly or mildly correlated with the Mini Mental State Examination score (MMSE) and the hippocampal volumetry. Civet differed significantly from Freesurfer in large frontal, parietal, temporal and occipital regions (p<0.05). In a discriminant analysis with cortical ROIs having effect size larger than 0.8, both pipelines gave no significant differences in area under the curve (AUC). Longitudinally, effect sizes were not significantly different in any of the 28 ROIs tested. Both pipelines weakly correlated with MMSE decay, showing no significant differences. Freesurfer mildly correlated with hippocampal thinning rate and differed in the supramarginal gyrus, temporal gyrus, and in the lateral occipital cortex compared to Civet (p<0.05). In a discriminant analysis with ROIs having effect size larger than 0.6, both pipelines yielded no significant differences in the AUC., Conclusions: Civet appears slightly more sensitive to the typical AD atrophic pattern at the MCI stage, but both pipelines can accurately characterize the topography of cortical thinning at the dementia stage.

Published

2015

3. OntoVIP: an ontology for the annotation of object models used for medical image simulation.

Author

Gibaud B, Forestier G, Benoit-Cattin H, Cervenansky F, Clarysse P, Friboulet D, Gaignard A, Hugonnard P, Lartizien C, Liebgott H, Montagnat J, Tabary J, and Glatard T

Subjects

Brain pathology, Computer Simulation, Humans, Models, Theoretical, Software, Diagnostic Imaging, Image Processing, Computer-Assisted methods, Internet, Semantics, Vocabulary, Controlled

Abstract

This paper describes the creation of a comprehensive conceptualization of object models used in medical image simulation, suitable for major imaging modalities and simulators. The goal is to create an application ontology that can be used to annotate the models in a repository integrated in the Virtual Imaging Platform (VIP), to facilitate their sharing and reuse. Annotations make the anatomical, physiological and pathophysiological content of the object models explicit. In such an interdisciplinary context we chose to rely on a common integration framework provided by a foundational ontology, that facilitates the consistent integration of the various modules extracted from several existing ontologies, i.e. FMA, PATO, MPATH, RadLex and ChEBI. Emphasis is put on methodology for achieving this extraction and integration. The most salient aspects of the ontology are presented, especially the organization in model layers, as well as its use to browse and query the model repository., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

4. A virtual imaging platform for multi-modality medical image simulation.

Author

Glatard T, Lartizien C, Gibaud B, da Silva RF, Forestier G, Cervenansky F, Alessandrini M, Benoit-Cattin H, Bernard O, Camarasu-Pop S, Cerezo N, Clarysse P, Gaignard A, Hugonnard P, Liebgott H, Marache S, Marion A, Montagnat J, Tabary J, and Friboulet D

Subjects

Computer Simulation, Databases, Factual, Humans, Medical Informatics Applications, Models, Biological, Reproducibility of Results, Database Management Systems, Diagnostic Imaging methods, Image Processing, Computer-Assisted methods, Software

Abstract

This paper presents the Virtual Imaging Platform (VIP), a platform accessible at http://vip.creatis.insa-lyon.fr to facilitate the sharing of object models and medical image simulators, and to provide access to distributed computing and storage resources. A complete overview is presented, describing the ontologies designed to share models in a common repository, the workflow template used to integrate simulators, and the tools and strategies used to exploit computing and storage resources. Simulation results obtained in four image modalities and with different models show that VIP is versatile and robust enough to support large simulations. The platform currently has 200 registered users who consumed 33 years of CPU time in 2011.

Published

2013

5. Optimization of mean-shift scale parameters on the EGEE grid.

Author

Li T, Camarasu-Pop S, Glatard T, Grenier T, and Benoit-Cattin H

Subjects

Algorithms, Image Processing, Computer-Assisted statistics & numerical data, Computer Communication Networks organization & administration, Image Processing, Computer-Assisted methods

Abstract

This paper studies the optimization of Mean-Shift (MS) image filtering scale parameters. A parameter sweep experiment representing 164 days of CPU is performed on the EGEE grid. The mathematical foundations of Mean-Shift and the grid environment used for the deployment are described in details. The experiments and results are then discussed highlighting the efficiency of gradient ascent algorithm for MS parameters optimization and a number of grid observations related to data transfers, reliability, task scheduling, CPU time and usability.

Published

2010

6. Grid-enabling medical image analysis.

Author

Germain C, Breton V, Clarysse P, Gaudeau Y, Glatard T, Jeannot E, Legré Y, Loomis C, Magnin I, Montagnat J, Moureaux JM, Osorio A, Pennec X, and Texier R

Subjects

Information Storage and Retrieval, Computer Communication Networks, Image Processing, Computer-Assisted, Systems Integration

Abstract

Grids have emerged as a promising technology to handle the data and compute intensive requirements of many application areas. Digital medical image processing is a promising application area for grids. Given the volume of data, the sensitivity of medical information, and the joint complexity of medical datasets and computations expected in clinical practice, the challenge is to fill the gap between the grid middleware and the requirements of clinical applications. The research project AGIR (Grid Analysis of Radiological Data) presented in this paper addresses this challenge through a combined approach: on one hand, leveraging the grid middleware through core grid medical services which target the requirements of medical data processing applications; on the other hand, grid-enabling a panel of applications ranging from algorithmic research to clinical applications.

Published

2005