The relationships among vascular geometry, hemodynamics, and plaque development in coronary arteries are not yet well understood. This in-vivo study was based on the observation that plaque frequently develops at the inner curvature of a vessel, presumably due to a relatively lower wall shear stress. We have shown that circumferential plaque distribution depends on the vessel curvature in the majority of vessels. Consequently, we studied the correlation of plaque distribution and hemodynamics in a set of 48 vessel segments reconstructed by 3-D fusion of intravascular ultrasound and x-ray angiography. The inverse relationship between local wall shear stress and plaque thickness was significantly more pronounced (p<0.025) in vessel cross sections exhibiting compensatory enlargement (positive remodeling) without luminal narrowing than when the full spectrum of vessel stenosis severity was considered. Our findings confirmed that relatively lower wall shear stress is associated with increased plaque development. © Springer-Verlag Berlin Heidelberg 2005.
CITATION STYLE
Wahle, A., Lopez, J. J., Olszewski, M. E., Vigmostad, S. C., Chandran, K. B., Rossen, J. D., & Sonka, M. (2005). Analysis of the interdependencies among plaque development, vessel curvature, and wall shear stress in coronary arteries. In Lecture Notes in Computer Science (Vol. 3504, pp. 12–22). Springer Verlag. https://doi.org/10.1007/11494621_2
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