In this study, the investigators sought to evaluate the feasibility of estimating external hemodynamic stress acting plaque with the use of invasively measured hemodynamic data from pressure wire pullback tracing. In addition, the investigators will also evaluate detailed plaque geometry and vulnerability using optical coherence tomography along with the hemodynamic stress.
It has been well known that mechanism of acute coronary syndrome is plaque rupture and occlusion of coronary artery by this plaque rupture. Although current risk assessment for plaque rupture have mainly focused on evaluation of plaque vulnerability. However, according to the general mechanism of material failure, plaque rupture occurs whenever the external hemodynamic stress exceeds the durability of the plaque. Recently, we evaluated the axial plaque stress, which is axial component of total traction acting on the plaque, and showed that the axial plaque stress possess significantly higher magnitude than previously known wall shear stress. However, the axial plaque stress in our previous research was measured with computational flow dynamics analysis using coronary artery model from coronary CT angiography. In this study, we sought to evaluate the feasibility of estimating external hemodynamic stress acting plaque with the use of invasively measured hemodynamic data from pressure wire pullback tracing. In addition, we will also evaluate detailed plaque geometry and vulnerability using optical coherence tomography along with the hemodynamic stress.
Study Type
OBSERVATIONAL
Enrollment
100
Keimyung University Dongsan Medical Center
Daegu, South Korea
Inje University Ilsan Paik Hospital
Goyang, South Korea
Seoul National University Hospital
Seoul, South Korea
Ulsan University Hospital, University of Ulsan College of Medicine
Ulsan, South Korea
Axial plaque stress (Axial component of total traction acting on the plaque)
Time frame: up to 1 week
Cap thickness (measured from optical coherent tomography)
Cap thickness measured from optical coherent tomography
Time frame: up to 1 week
Wall shear stress (Friction vector on the surface of the plaque)
Friction vector on the surface of the plaque
Time frame: up to 1 week
Proportion of thin cap fibrous atheroma
Plaques with cap thickness \< 60um
Time frame: up to 1 week
Cardiac death and all-cause mortality
Between High-hemodynamic force plaque and Low-hemodynamic force plaque
Time frame: 1 year
Non-fatal target vessel myocardial infarction
Between High-hemodynamic force plaque and Low-hemodynamic force plaque
Time frame: 1 year
Target vessel restenosis
Between High-hemodynamic force plaque and Low-hemodynamic force plaque
Time frame: 1 year
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