Characterization of aortic remodeling following Kawasaki disease: Toward a fully developed automatic biparametric model

Purpose: Mechanical properties of the arteries are essential in assessing cardiovascular diseases. New imaging modalities that allow mapping strain, shear and elasticity distributions within the arterial wall are rapidly evolving. Very recently, our group introduced an iterative optical flow-based e...

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Bibliographic Details
Published in:Medical physics (Lancaster) 2012-10, Vol.39 (10), p.6104-6110
Main Authors: Maurice, Roch L., Dahdah, Nagib
Format: Article
Language:English
Subjects:
Adolescent
Aorta - diagnostic imaging
Aorta - pathology
Aorta - physiopathology
aorta remodeling
Automation
Biomechanical Phenomena
biomechanics
Biomedical imaging
blood vessels
Cardiac dynamics
data analysis
Digital computing or data processing equipment or methods, specially adapted for specific applications
diseases
echocardiography
Echo‐tomography
elastic constants
Elastic properties
Elasticity Imaging Techniques
elastography
Flow visualization
Heart
Humans
Image data processing or generation, in general
image sequences
Immune system diseases
Kawasaki disease
Materials properties
Mechanical Phenomena
medical image processing
Medical imaging
Models, Biological
Mucocutaneous Lymph Node Syndrome - diagnostic imaging
Mucocutaneous Lymph Node Syndrome - pathology
Mucocutaneous Lymph Node Syndrome - physiopathology
optical flow equations
paediatrics
physiological models
Strain measurement
Stress, Mechanical
tissue mechanical properties
Tissues
Ultrasonography
Vascular system
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Summary:Purpose: Mechanical properties of the arteries are essential in assessing cardiovascular diseases. New imaging modalities that allow mapping strain, shear and elasticity distributions within the arterial wall are rapidly evolving. Very recently, our group introduced an iterative optical flow-based elastography method devoted to B-mode data. In this paper, the authors propose an adaptation of the optical flow method to investigate aortic remodeling following Kawasaki disease, an early childhood vasculitis. Namely, displacement and strain of the aortic wall are used to assess aortic stiffness in this human disease model. The authors also introduce a fully developed automatic method to support postprocessing data analysis. Methods: The sequalae of Kawasaki disease on the ascending aorta were examined in children. The pathologic population (n = 4) was 15.00 ± 2.45 years old, while the healthy control population (n = 5) was 13.13 ± 0.18 years old. B-mode data were digitally recorded with commercially available cardiac echocardiography machines. Results: Kawasaki disease had a very significant impact on the aortic stiffness. Indeed, pathologic subjects’ aortic wall strain estimate was significantly lower compared to healthy controls (2.75% ± 0.56% versus 4.24% ± 0.65%, respectively;p < 0.001). Similarly, displacement of the aortic wall was also significantly lower compared to controls (p < 0.001). Conclusions: The potential of the optical flow-based method to quantify aortic wall remodeling in a human disease model was demonstrated. The authors now intend to extend this investigation to a larger pathologic cohort with various degrees of vasculitis severity.
ISSN:0094-2405
2473-4209
DOI:10.1118/1.4752208