Characterization of Atherosclerotic Plaques and Mural Thrombi With Intravascular Ultrasound Elastography: A Potential Method Evaluated in an Aortic Rabbit Model and a Human Coronary Artery

Plaque rupture is correlated with the plaque morphology, composition, mechanical properties, and with the blood pressure. Whereas the geometry can accurately be assessed with intravascular ultrasound (IVUS) imaging, intravascular elastography (IVE) is capable of extracting information on the plaque...

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Bibliographic Details
Published in:IEEE journal of biomedical and health informatics 2008-05, Vol.12 (3), p.290-298
Main Authors: Maurice, Roch Listz, Fromageau, JÉrÉmie, Cardinal, Marie-HÉlÈne, Doyley, Marvin, de Muinck, Ebo, Robb, John, Cloutier, Guy
Format: Article
Language:English
Subjects:
Abdominal aorta
Algorithms
Animals
Aortic Diseases - diagnostic imaging
Arteries
atherosclerosis
Blood clots
Blood pressure
Capacitive sensors
Carbon capture and storage
Computer Simulation
coronary arteries
Coronary Artery Disease - diagnostic imaging
Coronary Artery Disease - physiopathology
Coronary Thrombosis - diagnostic imaging
Disease Models, Animal
Elasticity
Elasticity Imaging Techniques - methods
Feasibility Studies
Histology
Humans
Image Enhancement - methods
Image Interpretation, Computer-Assisted - methods
intravascular ultrasound (IVUS)
intravascular/endovascular elastography (EVE)
Lagrangian speckle model estimator (LSME)
Mechanical factors
Models, Cardiovascular
Morphology
rabbit model of atherosclerosis
Rabbits
Radio frequency
Reproducibility of Results
scaling factor estimator (SFE)
Sensitivity and Specificity
Stress, Mechanical
Ultrasonic imaging
Ultrasonography, Interventional - methods
vulnerable plaque
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Summary:Plaque rupture is correlated with the plaque morphology, composition, mechanical properties, and with the blood pressure. Whereas the geometry can accurately be assessed with intravascular ultrasound (IVUS) imaging, intravascular elastography (IVE) is capable of extracting information on the plaque local mechanical properties and composition. This paper reports additional IVE validation data regarding reproducibility and potential to characterize atherosclerotic plaques and mural thrombi. In a first investigation, radio frequency (RF) data were acquired from the abdominal aorta of an atherosclerotic rabbit model. In a second investigation, IVUS RF data were recorded from the left coronary artery of a patient referred for angioplasty. In both cases, Galaxy IVUS scanners (Boston Scientific, Freemont, CA), equipped with 40 MHz Atlantis catheters, were used. Elastograms were computed using two methods, the Lagrangian speckle model estimator (LSME) and the scaling factor estimator (SFE). Corroborated with histology, the LSME and the SFE both clearly detected a soft thrombus attached to the vascular wall. Moreover, shear elastograms, only available with the LSME, confirmed the presence of the thrombus. Additionally, IVE was found reproducible with consistent elastograms between cardiac cycles (CCs). Regarding the human dataset, only the LSME was capable of identifying a plaque that presumably sheltered a lipid core. Whereas such an assumption could not be certified with histology, radial shear and tangential strain LSME elastograms enabled the same conclusion. It is worth emphasizing that this paper reports the first ever in vivo tangential strain elastogram with regards to vascular imaging, due to the LSME. It is concluded that the IVE was reproducible exhibiting consistent strain patterns between CCs. The IVE might provide a unique tool to assess coronary wall lesions.
ISSN:1089-7771
2168-2194
1558-0032
1558-0032
2168-2208
DOI:10.1109/TITB.2008.917905