Author:
Psiuk-Maksymowicz Krzysztof,Borys Damian,Melka Bartlomiej,Gracka Maria,Adamczyk Wojciech P.,Rojczyk Marek,Wasilewski Jaroslaw,Głowacki Jan,Kruk Mariusz,Nowak Marcin,Ostrowski Ziemowit,Bialecki Ryszard A.
Abstract
AbstractDue to the difficulties in retrieving both the time-dependent shapes of the vessels and the generation of numerical meshes for such cases, most of the simulations of blood flow in the cardiac arteries use static geometry. The article describes a methodology for generating a sequence of time-dependent 3D shapes based on images of different resolutions and qualities acquired from ECG-gated coronary artery CT angiography. The precision of the shape restoration method has been validated using an independent technique. The original proposed approach also generates for each of the retrieved vessel shapes a numerical mesh of the same topology (connectivity matrix), greatly simplifying the CFD blood flow simulations. This feature is of significant importance in practical CFD simulations, as it gives the possibility of using the mesh-morphing utility, minimizing the computation time and the need of interpolation between boundary meshes at subsequent time instants. The developed technique can be applied to generate numerical meshes in arteries and other organs whose shapes change over time. It is applicable to medical images produced by other than angio-CT modalities.
Funder
National Centre of Research and Development, Poland
EU Innovative Economy Program
National Science Center, Poland
Faculty of Energy and Environmental Engineering of SUT
Publisher
Springer Science and Business Media LLC