The estimation of patient-specific cardiac diastolic functions from clinical measurements

Jiahe Xi; Pablo Lamata de la Orden; Steven Niederer; Sander Land; Wenzhe Shi; Xiahai Zhuang; Sebastien Ourselin; Simon G. Duckett; Anoop K. Shetty; C. Aldo Rinaldi; Daniel Rueckert; Reza Razavi; Nicolas Smith

doi:10.1016/j.media.2012.08.001

The estimation of patient-specific cardiac diastolic functions from clinical measurements

Jiahe Xi, Pablo Lamata de la Orden, Steven Niederer, Sander Land, Wenzhe Shi, Xiahai Zhuang, Sebastien Ourselin, Simon G. Duckett, Anoop K. Shetty, C. Aldo Rinaldi, Daniel Rueckert, Reza Razavi, Nicolas Smith

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Abstract

An unresolved issue in patients with diastolic dysfunction is that the estimation of myocardial stiffness cannot be decoupled from diastolic residual active tension (AT) because of the impaired ventricular relaxation during diastole. To address this problem, this paper presents a method for estimating diastolic mechanical parameters of the left ventricle (LV) from cine and tagged MRI measurements and LV cavity pressure recordings, separating the passive myocardial constitutive properties and diastolic residual AT. Dynamic C(1)-continuous meshes are automatically built from the anatomy and deformation captured from dynamic MRI sequences. Diastolic deformation is simulated using a mechanical model that combines passive and active material properties. The problem of non-uniqueness of constitutive parameter estimation using the well known Guccione law is characterized by reformulation of this law. Using this reformulated form, and by constraining the constitutive parameters to be constant across time points during diastole, we separate the effects of passive constitutive properties and the residual AT during diastolic relaxation. Finally, the method is applied to two clinical cases and one control, demonstrating that increased residual AT during diastole provides a potential novel index for delineating healthy and pathological cases.

Original language	English
Article number	N/A
Pages (from-to)	133-146
Number of pages	14
Journal	Medical Image Analysis
Volume	17
Issue number	2
Early online date	15 Oct 2012
DOIs	https://doi.org/10.1016/j.media.2012.08.001
Publication status	Published - Feb 2013

Keywords

Constitutive material parameter estimation
Left ventricular (LV) mechanics
Diastolic heart failure
MATERIAL PARAMETER-ESTIMATION
VENTRICULAR MYOCARDIUM
MECHANICAL-PROPERTIES
PASSIVE MYOCARDIUM
DATA ASSIMILATION
MR-IMAGES
HEART
STRAIN
REGISTRATION
CONTRACTION

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Xi13_Patient_specific_diastolic_functionsFinal published version, 1.95 MBLicence: CC BY

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Xi, J., Lamata de la Orden, P., Niederer, S., Land, S., Shi, W., Zhuang, X., Ourselin, S., Duckett, S. G., Shetty, A. K., Rinaldi, C. A., Rueckert, D., Razavi, R., & Smith, N. (2013). The estimation of patient-specific cardiac diastolic functions from clinical measurements. Medical Image Analysis, 17(2), 133-146. Article N/A. https://doi.org/10.1016/j.media.2012.08.001

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abstract = "An unresolved issue in patients with diastolic dysfunction is that the estimation of myocardial stiffness cannot be decoupled from diastolic residual active tension (AT) because of the impaired ventricular relaxation during diastole. To address this problem, this paper presents a method for estimating diastolic mechanical parameters of the left ventricle (LV) from cine and tagged MRI measurements and LV cavity pressure recordings, separating the passive myocardial constitutive properties and diastolic residual AT. Dynamic C(1)-continuous meshes are automatically built from the anatomy and deformation captured from dynamic MRI sequences. Diastolic deformation is simulated using a mechanical model that combines passive and active material properties. The problem of non-uniqueness of constitutive parameter estimation using the well known Guccione law is characterized by reformulation of this law. Using this reformulated form, and by constraining the constitutive parameters to be constant across time points during diastole, we separate the effects of passive constitutive properties and the residual AT during diastolic relaxation. Finally, the method is applied to two clinical cases and one control, demonstrating that increased residual AT during diastole provides a potential novel index for delineating healthy and pathological cases.",

keywords = "Constitutive material parameter estimation, Left ventricular (LV) mechanics, Diastolic heart failure, MATERIAL PARAMETER-ESTIMATION, VENTRICULAR MYOCARDIUM, MECHANICAL-PROPERTIES, PASSIVE MYOCARDIUM, DATA ASSIMILATION, MR-IMAGES, HEART, STRAIN, REGISTRATION, CONTRACTION",

author = "Jiahe Xi and {Lamata de la Orden}, Pablo and Steven Niederer and Sander Land and Wenzhe Shi and Xiahai Zhuang and Sebastien Ourselin and Duckett, {Simon G.} and Shetty, {Anoop K.} and Rinaldi, {C. Aldo} and Daniel Rueckert and Reza Razavi and Nicolas Smith",

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doi = "10.1016/j.media.2012.08.001",

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AU - Niederer, Steven

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AU - Zhuang, Xiahai

AU - Ourselin, Sebastien

AU - Duckett, Simon G.

AU - Shetty, Anoop K.

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AU - Razavi, Reza

AU - Smith, Nicolas

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N2 - An unresolved issue in patients with diastolic dysfunction is that the estimation of myocardial stiffness cannot be decoupled from diastolic residual active tension (AT) because of the impaired ventricular relaxation during diastole. To address this problem, this paper presents a method for estimating diastolic mechanical parameters of the left ventricle (LV) from cine and tagged MRI measurements and LV cavity pressure recordings, separating the passive myocardial constitutive properties and diastolic residual AT. Dynamic C(1)-continuous meshes are automatically built from the anatomy and deformation captured from dynamic MRI sequences. Diastolic deformation is simulated using a mechanical model that combines passive and active material properties. The problem of non-uniqueness of constitutive parameter estimation using the well known Guccione law is characterized by reformulation of this law. Using this reformulated form, and by constraining the constitutive parameters to be constant across time points during diastole, we separate the effects of passive constitutive properties and the residual AT during diastolic relaxation. Finally, the method is applied to two clinical cases and one control, demonstrating that increased residual AT during diastole provides a potential novel index for delineating healthy and pathological cases.

AB - An unresolved issue in patients with diastolic dysfunction is that the estimation of myocardial stiffness cannot be decoupled from diastolic residual active tension (AT) because of the impaired ventricular relaxation during diastole. To address this problem, this paper presents a method for estimating diastolic mechanical parameters of the left ventricle (LV) from cine and tagged MRI measurements and LV cavity pressure recordings, separating the passive myocardial constitutive properties and diastolic residual AT. Dynamic C(1)-continuous meshes are automatically built from the anatomy and deformation captured from dynamic MRI sequences. Diastolic deformation is simulated using a mechanical model that combines passive and active material properties. The problem of non-uniqueness of constitutive parameter estimation using the well known Guccione law is characterized by reformulation of this law. Using this reformulated form, and by constraining the constitutive parameters to be constant across time points during diastole, we separate the effects of passive constitutive properties and the residual AT during diastolic relaxation. Finally, the method is applied to two clinical cases and one control, demonstrating that increased residual AT during diastole provides a potential novel index for delineating healthy and pathological cases.

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KW - MECHANICAL-PROPERTIES

KW - PASSIVE MYOCARDIUM

KW - DATA ASSIMILATION

KW - MR-IMAGES

KW - HEART

KW - STRAIN

KW - REGISTRATION

KW - CONTRACTION

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JO - Medical Image Analysis

JF - Medical Image Analysis

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ER -

The estimation of patient-specific cardiac diastolic functions from clinical measurements

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Keywords

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