论文信息 - 3D Computational Mechanical Analysis for Human Atherosclerotic Plaques Using MRI-Based Models with Fluid-Structure Interactions

3D Computational Mechanical Analysis for Human Atherosclerotic Plaques Using MRI-Based Models with Fluid-Structure Interactions

Atherosclerotic plaques may rupture without warning and cause acute cardiovascular syndromes such as heart attack and stroke. It is believed that mechanical forces play an important role in plaque progression and rupture. A three-dimensional (3D) MRI-based finite-element model with multi-component plaque structure and fluid-structure interactions (FSI) is introduced to perform mechanical analysis for human atherosclerotic plaques and identify critical flow and stress/strain conditions which may be related to plaque rupture. The coupled fluid and structure models are solved by ADINA, a well-tested finite-element package. Our results indicate that pressure conditions, plaque structure, component size and location, material properties, and model assumptions all have considerable effects on flow and plaque stress/strain behaviors. Large-scale patient studies are needed to validate the computational findings. This FSI model provides more complete stress/strain analysis and better interpretation of information from MR images and may lead to more accurate plaque vulnerability assessment and rupture predictions.

[1] William E. Lorensen,et al. The visualization toolkit (2nd ed.): an object-oriented approach to 3D graphics , 1998 .

[2] Roger D. Kamm,et al. The Impact of Calcification on the Biomechanical Stability of Atherosclerotic Plaques , 2001, Circulation.

[3] D. Ku,et al. Effect of a lipid pool on stress/strain distributions in stenotic arteries: 3-D fluid-structure interactions (FSI) models. , 2004, Journal of biomechanical engineering.

[4] C Yuan,et al. Carotid atherosclerotic plaque: noninvasive MR characterization and identification of vulnerable lesions. , 2001, Radiology.

[5] William Schroeder,et al. The Visualization Toolkit: An Object-Oriented Approach to 3-D Graphics , 1997 .

[6] William J. Schroeder,et al. The Visualization Toolkit , 2005, The Visualization Handbook.

[7] Dalin Tang,et al. 3D MRI-Based Multicomponent FSI Models for Atherosclerotic Plaques , 2004, Annals of Biomedical Engineering.

[8] R D Kamm,et al. On the sensitivity of wall stresses in diseased arteries to variable material properties. , 2003, Journal of biomechanical engineering.

[9] K. Bathe. Finite Element Procedures , 1995 .

[10] E. Boerwinkle,et al. From vulnerable plaque to vulnerable patient: a call for new definitions and risk assessment strategies: Part I. , 2003, Circulation.