Tumor growth parameters estimation and source localization from a unique time point: Application to low-grade gliomas

Islem Rekik; Stéphanie Allassonnière; Olivier Clatz; Ezequiel Geremia; Erin Stretton; Hervé Delingette; Nicholas Ayache

doi:10.1016/j.cviu.2012.11.001

Tumor growth parameters estimation and source localization from a unique time point: Application to low-grade gliomas

Islem Rekik
, Stéphanie Allassonnière
, Olivier Clatz
, Ezequiel Geremia
, Erin Stretton
, Hervé Delingette
, Nicholas Ayache

École Polytechnique

INRIA

Research output: Contribution to journal › Article › peer-review

Abstract

Coupling time series of MR Images with reaction-diffusion-based models has provided interesting ways to better understand the proliferative-invasive aspect of glial cells in tumors. In this paper, we address a different formulation of the inverse problem: from a single time point image of a non-swollen brain tumor, estimate the tumor source location and the diffusivity ratio between white and gray matter, while exploring the possibility to predict the further extent of the observed tumor at later time points in low-grade gliomas. The synthetic and clinical results show the stability of the located source and its varying distance from the tumor barycenter and how the estimated ratio controls the spikiness of the tumor.

Original language	English
Pages (from-to)	238-249
Number of pages	12
Journal	Computer Vision and Image Understanding
Volume	117
Issue number	3
DOIs	https://doi.org/10.1016/j.cviu.2012.11.001
Publication status	Published - 16 Jan 2013

Keywords

Diffusivity ratio
Eikonal equation
Reaction-diffusion glioma growth modeling
Source estimation

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10.1016/j.cviu.2012.11.001

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title = "Tumor growth parameters estimation and source localization from a unique time point: Application to low-grade gliomas",

abstract = "Coupling time series of MR Images with reaction-diffusion-based models has provided interesting ways to better understand the proliferative-invasive aspect of glial cells in tumors. In this paper, we address a different formulation of the inverse problem: from a single time point image of a non-swollen brain tumor, estimate the tumor source location and the diffusivity ratio between white and gray matter, while exploring the possibility to predict the further extent of the observed tumor at later time points in low-grade gliomas. The synthetic and clinical results show the stability of the located source and its varying distance from the tumor barycenter and how the estimated ratio controls the spikiness of the tumor.",

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T1 - Tumor growth parameters estimation and source localization from a unique time point

T2 - Application to low-grade gliomas

AU - Rekik, Islem

AU - Allassonnière, Stéphanie

AU - Clatz, Olivier

AU - Geremia, Ezequiel

AU - Stretton, Erin

AU - Delingette, Hervé

AU - Ayache, Nicholas

PY - 2013/1/16

Y1 - 2013/1/16

N2 - Coupling time series of MR Images with reaction-diffusion-based models has provided interesting ways to better understand the proliferative-invasive aspect of glial cells in tumors. In this paper, we address a different formulation of the inverse problem: from a single time point image of a non-swollen brain tumor, estimate the tumor source location and the diffusivity ratio between white and gray matter, while exploring the possibility to predict the further extent of the observed tumor at later time points in low-grade gliomas. The synthetic and clinical results show the stability of the located source and its varying distance from the tumor barycenter and how the estimated ratio controls the spikiness of the tumor.

AB - Coupling time series of MR Images with reaction-diffusion-based models has provided interesting ways to better understand the proliferative-invasive aspect of glial cells in tumors. In this paper, we address a different formulation of the inverse problem: from a single time point image of a non-swollen brain tumor, estimate the tumor source location and the diffusivity ratio between white and gray matter, while exploring the possibility to predict the further extent of the observed tumor at later time points in low-grade gliomas. The synthetic and clinical results show the stability of the located source and its varying distance from the tumor barycenter and how the estimated ratio controls the spikiness of the tumor.

KW - Diffusivity ratio

KW - Eikonal equation

KW - Reaction-diffusion glioma growth modeling

KW - Source estimation

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DO - 10.1016/j.cviu.2012.11.001

M3 - Article

AN - SCOPUS:84872139028

SN - 1077-3142

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EP - 249

JO - Computer Vision and Image Understanding

JF - Computer Vision and Image Understanding

IS - 3

ER -

Tumor growth parameters estimation and source localization from a unique time point: Application to low-grade gliomas

Abstract

Keywords

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