Add to ORKGFrank’s Windkessel model described the hemodynamics of the arterial system in terms of resistance and compliance. It explained aortic pressure decay in diastole, but fell short in systole. Therefore characteristic impedance was introduced as a third element of the Windkessel model. Characteristic impedance links the lumped Windkessel to transmission phenomena (e.g., wave travel). Windkessels are used as hydraulic load for isolated hearts and in studies of the entire circulation. Furthermore, they are used to estimate total arterial compliance from pressure and flow; several of these methods are reviewed. Windkessels describe the general features of the input impedance, with physiologically interpretable parameters. Since it is a lumped mode...
There are two theoretical concepts of vertebrate hemodynamics, expressed by the Windkessel and Tubu...
The central aorta acts as a compliant tube that buffers and conducts pulsatile ventricular output (7...
Total arterial compliance and aortic characteristic impedance as a function of pressure in the anest...
Frank’s Windkessel model described the hemodynamics of the arterial system in terms of resistance an...
Objective: to analyse the performance of a Windkessel blood pressure (BP) modeling of arterial compl...
Some have said that it is inappropriate and perhaps impossible to consider wave and Windkessel pheno...
Pressure and flow are travelling waves and are reflected at many locations. The forward and reflecte...
High blood pressure has been recognized as a most common risk factor of cardiovascular diseases, whi...
Abstract We describe a mechanistic model of Windkessel phenomenon based on the linear...
We derived and tested a new, simple, and accurate method to estimate the compliance of the entire ar...
Algorithms for estimating cardiac output (CO) from the arterial blood pressure wave have been observ...
The differences in shape between central aortic pressure (P-Ao) and flow waveforms have never been e...
Modeling of the cardiovascular system is challenging, but it has the potential to further advance ou...
Decrease in arterial compliance leads to an increased pulse pressure, as explained by the Windkessel...
Better knowledge of organ damage produced by arterial hypertension in multiple conditions led to the...
There are two theoretical concepts of vertebrate hemodynamics, expressed by the Windkessel and Tubu...
The central aorta acts as a compliant tube that buffers and conducts pulsatile ventricular output (7...
Total arterial compliance and aortic characteristic impedance as a function of pressure in the anest...
Frank’s Windkessel model described the hemodynamics of the arterial system in terms of resistance an...
Objective: to analyse the performance of a Windkessel blood pressure (BP) modeling of arterial compl...
Some have said that it is inappropriate and perhaps impossible to consider wave and Windkessel pheno...
Pressure and flow are travelling waves and are reflected at many locations. The forward and reflecte...
High blood pressure has been recognized as a most common risk factor of cardiovascular diseases, whi...
Abstract We describe a mechanistic model of Windkessel phenomenon based on the linear...
We derived and tested a new, simple, and accurate method to estimate the compliance of the entire ar...
Algorithms for estimating cardiac output (CO) from the arterial blood pressure wave have been observ...
The differences in shape between central aortic pressure (P-Ao) and flow waveforms have never been e...
Modeling of the cardiovascular system is challenging, but it has the potential to further advance ou...
Decrease in arterial compliance leads to an increased pulse pressure, as explained by the Windkessel...
Better knowledge of organ damage produced by arterial hypertension in multiple conditions led to the...
There are two theoretical concepts of vertebrate hemodynamics, expressed by the Windkessel and Tubu...
The central aorta acts as a compliant tube that buffers and conducts pulsatile ventricular output (7...
Total arterial compliance and aortic characteristic impedance as a function of pressure in the anest...