心血管建模的主要内容 上帝充通大粤 SHANGHAI JIAO TONG UNIVERSITY (1)o-1D multi-scale modeling of the cardiovascular system.... to simulate arterial wave propagation (2)Coupled modeling of cardiovascular system and medical device....to explore new methods for aortic stiffness or blood pressure measurement (3)o-1-3D multi-scale modeling of the cardiovascular system.... to simulate the hemodynamic impact of an arterial surgery
心血管建模的主要内容 (1) 0-1D multi-scale modeling of the cardiovascular system …. to simulate arterial wave propagation (2) Coupled modeling of cardiovascular system and medical device…. to explore new methods for aortic stiffness or blood pressure measurement (3) 0-1-3D multi-scale modeling of the cardiovascular system …. to simulate the hemodynamic impact of an arterial surgery
上游充通大¥ SHANGHAI JIAO TONG UNIVERSITY Topic 1:0-1D multi-scale modeling of the cardiovascular system....to simulate arterial wave propagation
Topic 1: 0-1D multi-scale modeling of the cardiovascular system …. to simulate arterial wave propagation
0-1D multi-scale modeling of the cardiovasculansystem SHANGHAI JIAO TONG UNIVERSITY Coronary arterial RCA tree(1-D model) Aorta 9:999999999999999999999999999999999999 Left Coronary Artery Right Coronary Artery Circumflex Artery Left Anteno Descending Artery Intramyocardial pressure 0-D model Interface!1-D model Cerebral artery network(1-D model) 64 Right 3 Left 62 Right Right 82 atrium ventricle Superor A closed-loop model that describes both arterial wave vena cava propagation and systemic hemodynamics Liver Inferior vena cava Kidneys Intestines and spleen Abdominal Lower limbs vena cava 5 ① [Liang,et al.Medical Biological Engineering Computing.2009] [Liang,et al.Biomedical Engineering Online.2011] [Liang,et al.Journal of Biomechanics.2009]
0-1D multi-scale modeling of the cardiovascular system Coronary arterial tree (1-D model) Intramyocardial pressure A closed-loop model that describes both arterial wave propagation and systemic hemodynamics RCA LAD LCX [Liang, et al. Medical & Biological Engineering & Computing. 2009] [Liang, et al. Journal of Biomechanics. 2009] Aorta [Liang, et al. Biomedical Engineering Online. 2011]