Your search keyword '"Lesage, David"' showing total 12 results

1. Physics driven reduced order model for real time blood flow simulations

Author

Sankaran, Sethuraman, Lesage, David, Tombropoulos, Rhea, Xiao, Nan, Kim, Hyun Jin, Spain, David, Schaap, Michiel, and Taylor, Charles A.

Subjects

Mathematics - Numerical Analysis, Physics - Computational Physics, Physics - Medical Physics

Abstract

Predictive modeling of blood flow and pressure have numerous applications ranging from non-invasive assessment of functional significance of disease to planning invasive procedures. While several such predictive modeling techniques have been proposed, their use in the clinic has been limited due in part to the significant time required to perform virtual interventions and compute the resultant changes in hemodynamic conditions. We propose a fast hemodynamic assessment method based on first constructing an exploration space of geometries, tailored to each patient, and subsequently building a physics driven reduced order model in this space. We demonstrate that this method can predict fractional flow reserve derived from coronary computed tomography angiography in response to changes to a patient-specific lumen geometry in real time while achieving high accuracy when compared to computational fluid dynamics simulations. We validated this method on over 1300 patients that received a coronary CT scan and demonstrated a correlation coefficient of 0.98 with an error of 0.005 +- 0.015 (95% confidence interval: (-0.020, 0.031)) as compared to three-dimensional blood flow calculations.

Published

2019

2. Physics driven real-time blood flow simulations

Author

Sankaran, Sethuraman, Lesage, David, Tombropoulos, Rhea, Xiao, Nan, Kim, Hyun Jin, Spain, David, Schaap, Michiel, and Taylor, Charles A.

Published

2020

3. Adaptive particle filtering for coronary artery segmentation from 3D CT angiograms

Author

Lesage, David, Angelini, Elsa D., Funka-Lea, Gareth, and Bloch, Isabelle

Published

2016

4. Three-dimensional Evaluation of Lipiodol Retention in HCC after Chemoembolization: A Quantitative Comparison between CBCT and MDCT

Author

Wang, Zhijun, Lin, MingDe, Lesage, David, Chen, Rongxin, Chapiro, Julius, Gu, Tara, Tacher, Vania, Duran, Rafael, and Geschwind, Jean-François

Published

2014

5. Modèles, primitives et méthodes de suivi pour la segmentation vasculaire. Application aux coronaires en imagerie tomodensitométrique 3D

Author

Lesage, David, Télécom ParisTech, Ecole, Laboratoire Traitement et Communication de l'Information (LTCI), Télécom ParisTech-Institut Mines-Télécom [Paris] (IMT)-Centre National de la Recherche Scientifique (CNRS), Télécom ParisTech, Isabelle Bloch, and Elsa Angelini

Subjects

Vaisseaux sanguins, Coronary arteries, Segmentation, Blood vessels, [OTHER] domain_other, Suivi stochastique, Chemins minimaux, [MATH] Mathematics [math], [MATH]Mathematics [math], Minimal path optimization, Artères coronaires, [OTHER]domain_other, Stochastic tracking

Abstract

The segmentation of vascular structures is a fundamental step for diagnosis assistance and treatment. In this context, image processing techniques aim at easing and speeding up reviewing tasks by medical professionals, reducing the amount of manual interaction and lowering inter-operator variability. We first present an extensive bibliographical review of existing methods for 3D vascular segmentation following three axes of study: geometric and appearance models, image features and extraction schemes. In this work, we focus on a particularly challenging problem, the delineation of coronary arteries from 3D cardiac Computed Tomography Angiographic (CTA) data. We first detail our medial-based geometric model, which we evaluate on the image thanks to a fast, oriented, gradient flux-based medialness feature. We then formulate a recursive Bayesian model, which is learned in a non-parametric fashion from a ground-truth database of manually segmented datasets. We propose two separate extraction schemes to perform the actual segmentation. Our first strategy performs a discrete, graph-based optimization propagating minimal paths on a 4D (position+radius) graph. It exploits a new cumulative cost metric derived from our seminal Bayesian formulation. Our second strategy employs a sequential, stochastic Monte-Carlo tracking approach which successively estimates the posterior distribution of our Bayesian model through a population of random samples. For both approaches, particular attention is given to robustness and computational efficiency. Qualitative and quantitative evaluation is presented on a varied database of clinical data., La segmentation des structures vasculaires dans les images médicales est une étape complexe mais fondamentale pour l'aide au diagnostic et au traitement. Dans ce contexte, les techniques de traitement d'images facilitent la tâche des experts médicaux en minimisant les interactions manuelles tout en réduisant la variabilité inter-opérateurs. Nous présentons tout d'abord un état de l'art des méthodes de segmentation vasculaire 3D organisé suivant trois axes: modèles géométriques et d'apparence, primitives extraites des images et schémas d'extraction. Nos travaux se focalisent sur une problématique particulièrement complexe, la segmentation des artères coronaires en imagerie tomodensitométrique 3D. Nous proposons un modèle géométrique axial, évalué dans l'image grâce à une primitive fondée sur le flux de gradient à fort pouvoir discriminant et faible coût calculatoire. Nous dérivons ensuite un modèle bayésien récursif appris de façon non paramétrique sur une base de segmentations manuelles. Nous proposons enfin deux schémas d'extraction. Le premier met en œuvre une procédure d'optimisation discrète sur graphe fondée sur la propagation de chemins minimaux 4D (position spatiale 3D de l'axe vasculaire plus rayon associé). Il exploite une nouvelle métrique cumulative dérivée de notre modèle bayésien. Notre deuxième schéma repose sur une approche de suivi stochastique par méthode de Monte-Carlo séquentielle estimant la distribution a posteriori de notre modèle bayésien. Une attention particulière est donnée à la robustesse et l'efficacité calculatoire de nos algorithmes. Ceux-ci sont évalués qualitativement et quantitativement sur une base de données cliniques de grande taille.

Published

2009

6. Outils de base pour l'extraction de caractéristiques de surfaces numérisées

Author

Veron, Philippe, Lesage, David, Léon, Jean-Claude, Laboratoire des Sciences de l'Information et des Systèmes : Ingénierie Numérique des Systèmes Mécaniques (LSIS- INSM), Université de la Méditerranée - Aix-Marseille 2-Université Paul Cézanne - Aix-Marseille 3-Université de Provence - Aix-Marseille 1-Institut National des Sciences de l'Informatique et ses Interactions-Centre National de la Recherche Scientifique (CNRS), Laboratoire Sols, Solides, Structures (3S), Université Joseph Fourier - Grenoble 1 (UJF), and Centre National de la Recherche Scientifique (CNRS)-Institut National des Sciences de l'Informatique et ses Interactions-Université de Provence - Aix-Marseille 1-Université Paul Cézanne - Aix-Marseille 3-Université de la Méditerranée - Aix-Marseille 2

Subjects

Segmentation de surfaces, Approximations de courbures discrètes, Modèles polyédriques, Ingénierie assistée par ordinateur [Informatique], Maillage, Reconstruction, [INFO.INFO-IA]Computer Science [cs]/Computer Aided Engineering, Ingénierie inverse (rétro-conception)

Abstract

La construction d'une surface paramétrique à partir de données issues de la numérisation d'un objet réel est une étape longue et fastidieuse pour l'utilisateur. La difficulté principale de ce processus réside dans la décomposition de la surface de l'objet en carreaux comportant, de préférence, quatre côtés. La segmentation la plus naturelle pour l'utilisateur est une décomposition supportée par des lignes caractéristiques de la surface (arêtes vives, lignes de changement de courbure,...). En effet, l'utilisation de ces propriétés permet d'obtenir une décomposition représentative des caractéristiques géométriques de la surface. Les algorithmes développés utilisent un modèle polyédrique. La technique proposée repose sur des approximations de courbures faites sur les entités (sommets et arêtes) du polyèdre pour extraire, dans un premier temps, les "arêtes vives" et, par la suite, une première segmentation de la surface. Les "arêtes vives" sont identifiées par un algorithme basé sur des critères appelés invariants de courbures discrètes. Ces critères sont calculés pour chaque sommet et arête du polyèdre. Ils sont à rapprocher des approximations de courbures discrètes classiques, mais ils définissent la "forme" d'une surface au voisinage d'un sommet ou d'une arête. Le principe d'extraction consiste alors à sélectionner un ensemble ordonné d'arêtes vérifiant certaines propriétés géométriques. Chaque partition (ensemble connecté de faces) est une zone de la surface ayant une courbure locale plus ou moins constante. Les partitions sont identifiées grâce à une technique de propagation de fronts. Les faces adjacentes au front sont insérées dans celui-ci si les approximations de courbures calculées sur leurs sommets vérifient les critères de l'algorithme. Les "arêtes vives" préalablement extraites permettent de prendre en compte des discontinuités de courbures qui constituent des contraintes complémentaires pour la propagation de chaque front. In many areas of industry, it is desirable to create geometric models of existing objects for which no such model is available. Starting from a polyhedral representation on the digitized points measured on the object, this approach proposes a first phase of a segmentation process from a polyhedral surface prior to the generation of a NURBS model. Its main idea is to find a curve network, which divides the surfaces by means of a series of "feature polygonal lines". The advantage of this approach is that the patch structure will reflect the user's concept of the structure of the surface. Noise reduction and smoothing processes take place before the segmentation process to produce adequate input data for it. The approach is based on different approximations of curvature measurements of the surface to extract, at first, the sharp edges and secondly areas forming a first segmentation of the surface. This approach is interactive and allows the user to adapt threshold values to the various areas of the object. The sharp edges are found by an algorithm, which uses criteria based on discrete curvature invariant. These criteria are based on the approximation of curvatures (mean, gaussian, absolute), which strictly describe the local form of the surface around an edge or a vertex. According to a user threshold, the result of this algorithm is a set of list of edges. Each partition of the segmentation is an area of the surface with an almost constant curvature. Each of them is found with a frontal method. A front is initiated from a face, which satisfies a discrete curvature criterion. Faces adjacent to this front are admitted in it if the value of a curvature approximation for each of their vertices verifies the same discrete curvature criterion. Sharp edges defined beforehand express curvature or tangency discontinuities, which form complementary constraints for the front propagation algorithm.

Published

1998

7. Open source requests. (Readers' Forum)

Author

LeSage, David

Abstract

I am very strongly in favour of an open source column for your magazine as posited by a reader in the Letters page of the July 2002 issue. Furthermore, with […]

Published

2002

8. Suppression of spin-bath dynamics for improved coherence of multi-spin-qubit systems

Author

Bar-Gill, N., Pham, Linh My, Belthangady, Chinmay N., LeSage, David Anthony, Cappellaro, P., Maze, J.R., Lukin, Mikhail D., Yacoby, Amir, and Walsworth, Ronald L.

Subjects

Physical sciences, Atomic and molecular physics, Condensed matter, Optical physics

Abstract

Multi-qubit systems are crucial for the advancement and application of quantum science. Such systems require maintaining long coherence times while increasing the number of qubits available for coherent manipulation. For solid-state spin systems, qubit coherence is closely related to fundamental questions of many-body spin dynamics. Here we apply a coherent spectroscopic technique to characterize the dynamics of the composite solid-state spin environment of nitrogen-vacancy colour centres in room temperature diamond. We identify a possible new mechanism in diamond for suppression of electronic spin-bath dynamics in the presence of a nuclear spin bath of sufficient concentration. This suppression enhances the efficacy of dynamical decoupling techniques, resulting in increased coherence times for multi-spin-qubit systems, thus paving the way for applications in quantum information, sensing and metrology., Physics

Published

2012

9. Anti-Reflection Coating for Nitrogen-Vacancy Optical Measurements in Diamond

Author

Yeung, T. K., LeSage, David Anthony, Pham, Linh My, Stanwix, P. L., and Walsworth, Ronald L.

Abstract

We realize anti-reflection (AR) coatings for optical excitation and fluorescence measurements of nitrogen-vacancy (NV) color centers in bulk diamond by depositing quarter-wavelength thick silica layers on the diamondsurface. These AR coatings improve NV-diamond optical measurements by reducing optical reflection at the diamond-air interface from ≈17% to ≈2%, which allows more effective NV optical excitation and more efficient detection of NV fluorescence. We also show that diamondAR coatings eliminate standing-wave interference patterns of excitation laser intensity within bulk diamond, and thereby greatly reduce spatial variations in NV fluorescence, which can degrade spatially resolved magnetic field sensing using NV centers., Engineering and Applied Sciences, Physics

Published

2012

10. Enhanced solid-state multispin metrology using dynamical decoupling

Author

Pham, Linh My, Bar-Gill, N., Belthangady, Chinmay N., LeSage, David Anthony, Cappellaro, P., Lukin, Mikhail D., Yacoby, Amir, and Walsworth, Ronald L.

Abstract

We use multipulse dynamical decoupling to increase the coherence lifetime (T2) of large numbers of nitrogen-vacancy (NV) electronic spins in room temperature diamond, thus enabling scalable applications of multispin quantum information processing and metrology. We realize an order-of-magnitude extension of the NV multispin T2 in three diamond samples with widely differing spin impurity environments. In particular, for samples with nitrogen impurity concentration ≲1 ppm, we extend T2 to >2 ms, comparable to the longest coherence time reported for single NV centers, and demonstrate a tenfold enhancement in NV multispin sensing of ac magnetic fields., Physics

Published

2012

11. Efficient photon detection from color centers in a diamond optical waveguide

Author

LeSage, David Anthony, Pham, Linh My, Bar-Gill, N., Belthangady, Chinmay N., Lukin, Mikhail D., Yacoby, Amir, and Walsworth, Ronald L.

Abstract

A common limitation of experiments using color centers in diamond is the poor photon collection efficiency of microscope objectives due to refraction at the diamond interface. We present a simple and effective technique to detect a large fraction of photons emitted by color centers within a planar diamond sample by detecting light that is guided to the edges of the diamond via total internal reflection. We describe a prototype device using this “side-collection” technique, which provides a photon collection efficiency ≈47% and a photon detection efficiency ≈39%. We apply the enhanced signal-to-noise ratio gained from side collection to ac magnetometry using ensembles of nitrogen-vacancy (NV) color centers, and demonstrate an ac magnetic field sensitivity ≈100pT/Hz‾‾‾√, limited by added noise in the prototype side-collection device. Technical optimization should allow significant further improvements in photon collection and detection efficiency as well as subpicotesla NV-diamond magnetic field sensitivity using the side-collection technique., Physics

Published

2012

12. Enhanced metrology using preferential orientation of nitrogen-vacancy centers in diamond

Author

Pham, Linh My, Bar-Gill, N., LeSage, David Anthony, Belthangady, Chinmay N., Stacey, A., Markham, M., Twitchen, D. J., Lukin, Mikhail D., and Walsworth, Ronald L.

Abstract

We demonstrate preferential orientation of nitrogen-vacancy (NV) color centers along two of four possible crystallographic axes in diamonds grown by chemical vapor deposition on the {100} face. We identify the relevant growth regime and present a possible explanation of this effect. We show that preferential orientation provides increased optical readout contrast for NV multispin measurements, including enhanced ac magnetic-field sensitivity, thus providing an important step towards high-fidelity multispin-qubit quantum information processing, sensing, and metrology., Physics

Published

2012