Department News
Computer Model of Carotid Artery
Seminar Date
2000-10-19
Author
손문숙
Date
2000-10-19
Views
1014
1. 제 목 : Computer Model of Carotid Artery
2.시 간 : 10월 5(목) 오후 4시~5시
3.장 소 : 301동 1512호
4. 연 사 : 정찬일 박사
5. 연사약력 : 1988 - 1992 : 서울대학교 공과대학 기계설계학과 (학사)
1992 - 1994 서울대학교 공과대학 의공학과 (석사)
1994 - 1997.8 : 서울대학교 공과대학 의공학과 (박사)
1996 - 2000.6 : 서울대학교 의학연구원 의용생체공학연구소 연구원
1999.3-2000.6: 미국 MIT 의공학연구소 Post-Doc
2000.7- 현재: 서울대학교 정밀기계설계공동연구소 특별연구원
5.내 용 :
A computer model was produced of the hemodynamics within the carotid bifurcation with the ultimate aim of assessing the relationships between low or oscillatory shear stress and monocyte / macrohage density, and between the production of matrix metalloproteinases and wall deformation. The geometry of carotid artery including wall thickness was reconstructed from the Spin-echo MRI by the image segmentation and the reverse engineering technique of CAD. The local flow and stress analysis is performed by finite element analysis using a slightly modified version of the commercial code ADINA and ADINA-F. Boundary conditions at the common and internal carotids are applied based on the velocity vector field from blood flow information of MRI. The effects of pathological geometries are considered in relation to the anticipated correlations described above
5. 문 의 : 기계항공공학부 유정열 교수 (☏ : 880-7112)
2.시 간 : 10월 5(목) 오후 4시~5시
3.장 소 : 301동 1512호
4. 연 사 : 정찬일 박사
5. 연사약력 : 1988 - 1992 : 서울대학교 공과대학 기계설계학과 (학사)
1992 - 1994 서울대학교 공과대학 의공학과 (석사)
1994 - 1997.8 : 서울대학교 공과대학 의공학과 (박사)
1996 - 2000.6 : 서울대학교 의학연구원 의용생체공학연구소 연구원
1999.3-2000.6: 미국 MIT 의공학연구소 Post-Doc
2000.7- 현재: 서울대학교 정밀기계설계공동연구소 특별연구원
5.내 용 :
A computer model was produced of the hemodynamics within the carotid bifurcation with the ultimate aim of assessing the relationships between low or oscillatory shear stress and monocyte / macrohage density, and between the production of matrix metalloproteinases and wall deformation. The geometry of carotid artery including wall thickness was reconstructed from the Spin-echo MRI by the image segmentation and the reverse engineering technique of CAD. The local flow and stress analysis is performed by finite element analysis using a slightly modified version of the commercial code ADINA and ADINA-F. Boundary conditions at the common and internal carotids are applied based on the velocity vector field from blood flow information of MRI. The effects of pathological geometries are considered in relation to the anticipated correlations described above
5. 문 의 : 기계항공공학부 유정열 교수 (☏ : 880-7112)