Published with the support of RFBR (grant No. 18-29-02073)
Olga K. Voronova1*, Mikhail Y. Rudenko1, Vladimir A. Zernov1
1 Russian New University
Russia, 105005, Moscow, Radio str., 22
* Corresponding author:
The objective is to demonstrate the features of an original mathematical model of hemodynamics, developed by Russian researchers G.Poyedintsev and O.Voronova.
Materials and methods
The proposed original mathematical model of hemodynamics is based on the laws of the fresh hydrodynamic theory of the "third" fluid flow mode.
As a result of the application of the above mathematical model of hemodynamics, an advanced method for noninvasive measuring of a complete set of hemodynamic parameters with the use of the cardiac cycle phase durations, implemented by the Cardiocode device, have been elaborated.
The unique method for noninvasive measuring of a complete set of hemodynamic parameters, which has been developed on the basis of the above mathematical model of hemodynamics, is a promising source for considerable expanding of diagnostics capabilities.
Olga K. Voronova, Mikhail Y. Rudenko, Vladimir A. Zernov. The G.Poyedintsev - O. Voronova mathematical model of hemodynamics. Cardiometry; Issue 14; May 2019; p.10-15; DOI: 10.12710/cardiometry.2019.14.1015; ISSN 2304-7232. Published with the support of RFBR (grant No. 18-29-02073). Available from: http://www.cardiometry.net/issues/no14-may-2019/mathematical-model-of-hemodynamics