We are interested in the integration of the fluid engineering knowledge and technology into the biomedical field in an effort to open a new frontier in the interdisciplinary research. Our two specific research targets are the hemodynamics in the cerebral artery, and the micro/nanofluidics in Micro-TAS or Lab-on-a-chip through the following approaches, the numerical simulation (FEM , etc.) and the visual sensing (PIV).
3D modeling system of blood vessel from medical image
Cerebral circulation model for multiscale blood flow analysis
Modeling of outflow boundary conditions
Fluid-structure interaction (FSI) analysis of aneurysm model considering deformation of blood vessel wall
3D visualization system of 1D-0D blood flow simulation results
Blood Flow Model taking account of Mass Transport
Confocal micro-PIV Measurement of the Interaction between Red Blood Cells and Surrounding Flow
Time-resolved Stereo PIV Measurement of Pulsatile Flow in the Modeled Artery
