期刊
ULTRASONOGRAPHY
卷 40, 期 3, 页码 428-441出版社
KOREAN SOC ULTRASOUND MEDICINE
DOI: 10.14366/usg.20131
关键词
Consecutive ultrasonic images; Carotid artery; Atherosclerotic plaque; Rupture; Finite element modeling; Viscoelastic model
This study reconstructed models from ultrasound image processing to assess differences in stresses on plaques with mild and severe stenosis. The radial displacement waveforms of the model closely correlated with image processing, and as stenosis increased, stresses at different positions of the plaques significantly increased.
Purpose: This study investigated the accuracy of models reconstructed from ultrasound image processing by comparing the radial displacement waveforms of a subject-specific artery model and evaluated stress changes in the proximal shoulder, throat, and distal shoulder of the plaques depending on the degree of carotid artery stenosis. Methods: Three groups of subjects (healthy and with less than 50% or more carotid stenosis) were evaluated with ultrasonography. Two-dimensional transverse imaging of the common carotid artery was performed to reconstruct the geometry. A longitudinal view of the same region was recorded to extract the Kelvin viscoelastic model parameters. The pulse pressure waveform and the effective pressure of perivascular tissue were loaded onto the internal and external walls of the model. Effective, circumferential, and principal stresses applied to the plaque throat, proximal shoulder, and distal shoulder in the transverse planes were extracted. Results: The radial displacement waveforms of the model were closely correlated with those of image processing in all three groups. The mean of the effective, circumferential, and principal stresses of the healthy arteries were 15.01 +/- 4.93, 12.97 +/- 5.07, and 12.39 +/- 2.86 kPa, respectively. As stenosis increased from mild to significant, the mean values of the effective, circumferential, and first principal stresses increased significantly (97%, 74%, and 103% at the plaque throat, respectively) (P<0.05). The minimum effective stress was at the lipid pool. The effective stress in calcified areas was higher than in other parts of the artery wall. Conclusion: This model can discriminate differences in stresses applied to mildly and severely stenotic plaques.
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