0000000000297422

AUTHOR

Maxime Sermesant

showing 8 related works from this author

Statistical Atlases and Computational Models of the Heart. ACDC and MMWHS Challenges

2017

International audience

[ INFO.INFO-IM ] Computer Science [cs]/Medical Imaging[INFO.INFO-IM] Computer Science [cs]/Medical Imaging[INFO.INFO-IM]Computer Science [cs]/Medical ImagingComputingMilieux_MISCELLANEOUS
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Inter-Model Consistency and Complementarity: Learning from ex-vivo Imaging and Electrophysiological Data towards an Integrated Understanding of Cardi…

2011

International audience; Computational models of the heart at various scales and levels of complexity have been independently developed, parameterised and validated using a wide range of experimental data for over four decades. However, despite remarkable progress, the lack of coordinated efforts to compare and combine these computational models has limited their impact on the numerous open questions in cardiac physiology. To address this issue, a comprehensive dataset has previously been made available to the community that contains the cardiac anatomy and fibre orientations from magnetic resonance imaging as well as epicardial transmembrane potentials from optical mapping measured on a per…

Time FactorsComputer scienceSwine[SDV.IB.IMA]Life Sciences [q-bio]/Bioengineering/ImagingBiophysics030204 cardiovascular system & hematologyIn Vitro Techniquescomputer.software_genreModels BiologicalBiophysical PhenomenaPersonalizationMembrane PotentialsDiffusionPurkinje Fibers03 medical and health sciences0302 clinical medicine[INFO.INFO-TS]Computer Science [cs]/Signal and Image ProcessingOptical mappingMaximum a posteriori estimation[INFO.INFO-IM]Computer Science [cs]/Medical ImagingAnimalsMolecular Biology030304 developmental biology0303 health sciencesComputational modelCardiac electrophysiologybusiness.industryBiophysical PhenomenaExperimental dataReproducibility of ResultsHeartMagnetic Resonance Imaging[INFO.INFO-MO]Computer Science [cs]/Modeling and SimulationElectrophysiological PhenomenaSystems IntegrationSystem integrationArtificial intelligenceData miningbusinesscomputerPericardium[SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing
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A rule‐based method to model myocardial fiber orientation in cardiac biventricular geometries with outflow tracts

2019

Rule-based methods are often used for assigning fiber orientation to cardiac anatomical models. However, existing methods have been developed using data mostly from the left ventricle. As a consequence, fiber information obtained from rule-based methods often does not match histological data in other areas of the heart such as the right ventricle, having a negative impact in cardiac simulations beyond the left ventricle. In this work, we present a rule-based method where fiber orientation is separately modeled in each ventricle following observations from histology. This allows to create detailed fiber orientation in specific regions such as the endocardium of the right ventricle, the inter…

FOS: Computer and information sciencesmedicine.medical_specialtyHeart VentriclesBiomedical EngineeringFOS: Physical sciencesVolume mesh030204 cardiovascular system & hematology[INFO.INFO-AI]Computer Science [cs]/Artificial Intelligence [cs.AI]030218 nuclear medicine & medical imagingComputational Engineering Finance and Science (cs.CE)03 medical and health sciences0302 clinical medicineRule-based methodInternal medicine[INFO.INFO-IM]Computer Science [cs]/Medical ImagingmedicineHumansComputer SimulationElectrophysiological simulationsInterventricular septumOutflow tractComputer Science - Computational Engineering Finance and ScienceMolecular BiologyEndocardiumFiber (mathematics)Orientation (computer vision)MyocardiumApplied MathematicsFiber orientationOutflow tract ventricular arrhythmiaModels CardiovascularRule-based systemSeptumMagnetic Resonance Imaging[INFO.INFO-MO]Computer Science [cs]/Modeling and SimulationPhysics - Medical PhysicsElectrophysiological Phenomenamedicine.anatomical_structureComputational Theory and MathematicsVentricleModeling and Simulationcardiovascular systemCardiologyOutflowMedical Physics (physics.med-ph)SoftwareGeologyInternational Journal for Numerical Methods in Biomedical Engineering
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87Non-invasive virtual prediction of site of origin in outflow tract ventricular arrhythmias with a patient-specific computational model

2017

medicine.medical_specialtybusiness.industryInternal medicineCardiologymedicineOutflowPatient specificCardiology and Cardiovascular MedicinebusinessSite of originEuropean Heart Journal
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A Rule-Based Method to Model Myocardial Fiber Orientation for Simulating Ventricular Outflow Tract Arrhythmias

2017

Comunicació presentada a: FIMH 2017 9th International Conference, celebrada a Toronto, Canadà, de l'11 al 13 de juny de 2017. Myocardial fiber orientation determines the propagation of electrical waves in the heart and the contraction of cardiac tissue. One common approach for assigning fiber orientation to cardiac anatomi- cal models are Rule-Based Methods (RBM). However, RBM have been developed to assimilate data mostly from the Left Ventricle. In conse- quence, fiber information from RBM does not match with histological data in other areas of the heart, having a negative impact in cardiac simulations beyond the LV. In this work, we present a RBM where fiber orientation is separately mode…

business.industryOrientation (computer vision)Fiber (mathematics)Fiber orientationOutflow tractsAnatomy030204 cardiovascular system & hematologyArrhythmias[INFO.INFO-MO]Computer Science [cs]/Modeling and Simulation030218 nuclear medicine & medical imaging03 medical and health sciencesElectrophysiology0302 clinical medicinemedicine.anatomical_structureRule-based methodVentriclemedicinecardiovascular system[INFO.INFO-IM]Computer Science [cs]/Medical ImagingVentricular outflow tractOutflowElectrophysiological simulationsInterventricular septumbusinessEndocardium
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Meshless Electrophysiological Modeling of Cardiac Resynchronization Therapy—Benchmark Analysis with Finite-Element Methods in Experimental Data

2022

Computational models of cardiac electrophysiology are promising tools for reducing the rates of non-response patients suitable for cardiac resynchronization therapy (CRT) by optimizing electrode placement. The majority of computational models in the literature are mesh-based, primarily using the finite element method (FEM). The generation of patient-specific cardiac meshes has traditionally been a tedious task requiring manual intervention and hindering the modeling of a large number of cases. Meshless models can be a valid alternative due to their mesh quality independence. The organization of challenges such as the CRT-EPiggy19, providing unique experimental data as open access, enables b…

Fluid Flow and Transfer Processessmoothed particle hydrodynamicsProcess Chemistry and TechnologyGeneral Engineeringcardiac resynchronization therapyelectrophysiology[INFO.INFO-MO]Computer Science [cs]/Modeling and SimulationComputer Science ApplicationsCRT-EPiggy19 challenge[SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular systemPotencials evocats (Electrofisiologia)Informàticaparameter optimisation[INFO.INFO-IM]Computer Science [cs]/Medical Imagingelectrophysiology; parameter optimisation; smoothed particle hydrodynamics; meshless model; cardiac resynchronization therapy; CRT-EPiggy19 challengeGeneral Materials ScienceInstrumentationmeshless modelApplied Sciences; Volume 12; Issue 13; Pages: 6438
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Integration of different cardiac electrophysiological models into a single simulation pipeline

2012

Clinical translation of computational models of the heart has been hampered by the absence of complete and rigorous technical and clinical validation, as well as benchmarking of the developed tools. To address this issue, a dataset containing the cardiac anatomy and fibre orientations from magnetic resonance images (MRI), as well as epicardial transmembrane potentials from optical mapping acquired on ex-vivo porcine hearts, have previously been made available to the community. Image processing techniques were developed to integrate MRI images with electrical information. Different models were tested and compared with the integrated data1, including: i) a new methodology to customize and reg…

Membrane potentialComputational modelmedicine.diagnostic_testbusiness.industryOrientation (computer vision)Cardiac anatomyComputer scienceHeart shapeMagnetic resonance imagingImage processingElectrophysiologyOptical mappingmedicinesymbolsMaximum a posteriori estimationsymbols.heraldic_chargeComputer visionArtificial intelligencebusiness2012 9th IEEE International Symposium on Biomedical Imaging (ISBI)
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Deep Learning Techniques for Automatic MRI Cardiac Multi-Structures Segmentation and Diagnosis: Is the Problem Solved?

2018

Delineation of the left ventricular cavity, myocardium, and right ventricle from cardiac magnetic resonance images (multi-slice 2-D cine MRI) is a common clinical task to establish diagnosis. The automation of the corresponding tasks has thus been the subject of intense research over the past decades. In this paper, we introduce the “Automatic Cardiac Diagnosis Challenge” dataset (ACDC), the largest publicly available and fully annotated dataset for the purpose of cardiac MRI (CMR) assessment. The dataset contains data from 150 multi-equipments CMRI recordings with reference measurements and classification from two medical experts. The overarching objective of this paper is to measure how f…

MaleDatabases FactualHeart DiseasesComputer science[SDV]Life Sciences [q-bio]Lleft and right ventricles030218 nuclear medicine & medical imagingTask (project management)Cardiac segmentation and diagnosis03 medical and health sciences0302 clinical medicineDeep LearningImage Interpretation Computer-AssistedmedicineMedical imagingHumansSegmentationElectrical and Electronic EngineeringRadiological and Ultrasound Technologymedicine.diagnostic_testbusiness.industryMyocardiumDeep learningMagnetic resonance imagingPattern recognitionHeartImage segmentationMagnetic Resonance ImagingComputer Science ApplicationsCardiac Imaging Techniquesmedicine.anatomical_structureVentricleFemaleArtificial intelligencebusinessCardiac magnetic resonanceLeft and right ventricles030217 neurology & neurosurgerySoftwareMRIIEEE transactions on medical imaging
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