AbstractThe accuracy of the nonlinear one-dimensional (1-D) equations of pressure and flow wave propagation in Voigt-type visco-elastic arteries was tested against measurements in a well-defined experimental 1:1 replica of the 37 largest conduit arteries in the human systemic circulation. The parameters required by the numerical algorithm were directly measured in the in vitro setup and no data fitting was involved. The inclusion of wall visco-elasticity in the numerical model reduced the underdamped high-frequency oscillations obtained using a purely elastic tube law, especially in peripheral vessels, which was previously reported in this paper [Matthys et al., 2007. Pulse wave propagation in a model human arterial network: Assessment of 1...
AbstractFinite modelling and simulation of the arterial network in the human arm has been presented ...
The present study examines the possibility of attenuating blood pulses by means of introducing prost...
Research on wave propagation in liquid-filled vessels is often motivated by the need to understand a...
The accuracy of the nonlinear one-dimensional (1-D) equations of pressure and flow wave propagation ...
The transmission of pressure and flow pulse waves in human systemic arteries is modeled using one-di...
For pre-operative decision making in cardiovascular surgery, patient-specific physiological data are...
The vascular network consists of a very large number of segments with various properties and thus th...
Abstract. Several lumped parameter, or zero-dimensional (0-D), models of the micro-circulation are c...
The purpose of this thesis is to develop a non-linear, one-dimensional (1-D) model of pulse wave pro...
The investigation of arterial blood flow has always been an important topic in physiology. Large pro...
Mathematical models are widely recognized as a valuable tool for cardiovascular diagnosis and the st...
International audienceIt is well known that blood vessels exhibit viscoelastic properties, which are...
Pulse wave evaluation is an effective method for arteriosclerosis screening. In a previous study, we...
The aim of this study is to validate a person-specific distributed model of the main systemic arteri...
High blood pressure blood pressure is an important risk factor for cardiovascular disease and affect...
AbstractFinite modelling and simulation of the arterial network in the human arm has been presented ...
The present study examines the possibility of attenuating blood pulses by means of introducing prost...
Research on wave propagation in liquid-filled vessels is often motivated by the need to understand a...
The accuracy of the nonlinear one-dimensional (1-D) equations of pressure and flow wave propagation ...
The transmission of pressure and flow pulse waves in human systemic arteries is modeled using one-di...
For pre-operative decision making in cardiovascular surgery, patient-specific physiological data are...
The vascular network consists of a very large number of segments with various properties and thus th...
Abstract. Several lumped parameter, or zero-dimensional (0-D), models of the micro-circulation are c...
The purpose of this thesis is to develop a non-linear, one-dimensional (1-D) model of pulse wave pro...
The investigation of arterial blood flow has always been an important topic in physiology. Large pro...
Mathematical models are widely recognized as a valuable tool for cardiovascular diagnosis and the st...
International audienceIt is well known that blood vessels exhibit viscoelastic properties, which are...
Pulse wave evaluation is an effective method for arteriosclerosis screening. In a previous study, we...
The aim of this study is to validate a person-specific distributed model of the main systemic arteri...
High blood pressure blood pressure is an important risk factor for cardiovascular disease and affect...
AbstractFinite modelling and simulation of the arterial network in the human arm has been presented ...
The present study examines the possibility of attenuating blood pulses by means of introducing prost...
Research on wave propagation in liquid-filled vessels is often motivated by the need to understand a...