Abstract
In order to obtain a better understanding of mechanism of cerebral aneurysms, the interaction between blood flow and arterial walls plays an important role. However, it is difficult to measure the in vivo behavior of blood flow and arterial walls in the cerebral circulation using medical imaging techniques due to the limitation of resolution and data acquisition of the current available systems. The authors have been developing a medical image-based simulation and database system to investigate the effects of vascular morphology on cerebral hemodynamics. This paper focuses on the blood flow–arterial wall interaction to investigate how the wall deformation affects the characteristics of blood flow. The simulation is conducted for a patient-specific model of a middle cerebral aneurysm, which is constructed from CT images. The effects of elastic models are examined using two types of elastic models: (1) linear elastic model; and (2) non-linear elastic model.
Acknowledgements
The authors would like to thank Professor Tayfun Tezduyar, Rice University for his kind advice in developing the flow-structure interaction part of the simulation system.
Notes
**Email: [email protected]
Additional information
Notes on contributors
R. Torii
**Email: [email protected]