Add to ORKGIn this paper a 1D model is presented for the simulation of blood flow in stenosed coronary arteries. The model was developed by implementing a special boundary counditions in a previously published arterial blood flow model. The stenosis as well as the arterioles were modelled as linear resistances. Using patient-specific parameters, blood flow can be calculated for different inlet flow rates. The model was used to simulate blood pressure waveforms of 5 patients diagnosed with coronary stenosis. Simulation results show good agreement with measurement data
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
One-dimensional (1D) hemodynamic models of arteries have increasingly been applied to coronary circu...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Mathematical modelling of blood flow through an artery with multiple stenoses and poststenotic dilat...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
One-dimensional (1D) hemodynamic models of arteries have increasingly been applied to coronary circu...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...
Blood flow in a stenosed artery was simulated using the two way, fluid-structural interactions in AN...