Arterial windkessel mechanisms and arterial pressure (AP) low frequency (LF) waves were investigated by means of simple lumped models of a compliant resistant/arterial tree and of flow regulation in peripheral vascular districts (PVDs) with three types of feedback: J) delay, 2) Van der Pol oscillator, 3) relay; all were able to actively compensate flow changes and to simulate peripheral LF vasomotion. Each PVD connected to a Windkessel compartment displayed a reduction and a disappearance of oscillations with low compliance, when the Windkessel equivalent time constant T/sub eq/ fall below 2s. Two PVDs connected to the same Windkessel tended to phase opposition with a negative interference canceling their LF oscillations from AP. With a mod...
An analytical model was developed to simulate human arterial pulse wave propagation in major arterie...
The large arteries may be expected to respond to a central pulse wave as a resonant system and the p...
Pressure and flow are travelling waves and are reflected at many locations. The forward and reflecte...
Arterial windkessel mechanisms and arterial pressure (AP) low frequency (LF) waves were investigated...
Arterial pressure (AP) and heart rate (HR) waves have long been recognized as an important sign of c...
Simulations are performed in order to analyze the tendency of oscillating peripheral vascular distri...
The Windkessel properties of the vasculature are known to play a significant role in buffering arter...
Peripheral vasomotion, interstitial liquid exchange, and cardiovascular system behaviour are investi...
The differences in shape between central aortic pressure (P-Ao) and flow waveforms have never been e...
Objective: to analyse the performance of a Windkessel blood pressure (BP) modeling of arterial compl...
<div><p>In the modeling of the pulse wave in the systemic arterial tree, it is necessary to truncate...
Cardiovascular parameters exhibit spontaneous oscillations at the respiratory frequency, and in the ...
Modeling of the cardiovascular system is challenging, but it has the potential to further advance ou...
Frank’s Windkessel model described the hemodynamics of the arterial system in terms of resistance an...
Various detailed models of cerebral circulation have been proposed, recently fostered by the hypothe...
An analytical model was developed to simulate human arterial pulse wave propagation in major arterie...
The large arteries may be expected to respond to a central pulse wave as a resonant system and the p...
Pressure and flow are travelling waves and are reflected at many locations. The forward and reflecte...
Arterial windkessel mechanisms and arterial pressure (AP) low frequency (LF) waves were investigated...
Arterial pressure (AP) and heart rate (HR) waves have long been recognized as an important sign of c...
Simulations are performed in order to analyze the tendency of oscillating peripheral vascular distri...
The Windkessel properties of the vasculature are known to play a significant role in buffering arter...
Peripheral vasomotion, interstitial liquid exchange, and cardiovascular system behaviour are investi...
The differences in shape between central aortic pressure (P-Ao) and flow waveforms have never been e...
Objective: to analyse the performance of a Windkessel blood pressure (BP) modeling of arterial compl...
<div><p>In the modeling of the pulse wave in the systemic arterial tree, it is necessary to truncate...
Cardiovascular parameters exhibit spontaneous oscillations at the respiratory frequency, and in the ...
Modeling of the cardiovascular system is challenging, but it has the potential to further advance ou...
Frank’s Windkessel model described the hemodynamics of the arterial system in terms of resistance an...
Various detailed models of cerebral circulation have been proposed, recently fostered by the hypothe...
An analytical model was developed to simulate human arterial pulse wave propagation in major arterie...
The large arteries may be expected to respond to a central pulse wave as a resonant system and the p...
Pressure and flow are travelling waves and are reflected at many locations. The forward and reflecte...