Motion of blood formed elements in a pulsatile hemodynamic flow

Автор: Timoshenko Vladimir I., Chernov Nikolay N.

Рубрика: Report

Статья в выпуске: 13, 2018 года.

Бесплатный доступ

This paper offers some results obtained in our studies on the motion of individual formed elements in blood with due regard of a pulsatile flow of the plasma in the blood vessels. An analysis of the process of the motion of the blood particles having different shapes in a pressure wave variable field of the pressure wave has been completed herein.

Blood formed elements, motion, pressure wave variable field, human circulatory system, physical models of motion of formed elements

Короткий адрес: https://sciup.org/148308848

ID: 148308848 | DOI: 10.12710/cardiometry.2018.13.2226

Список литературы Motion of blood formed elements in a pulsatile hemodynamic flow

Rudenko MY. Problems and prospects for the study of hemodynamics based on electrocardiograms. Scientific and study guide. Moscow: RosNOU, 2006. 12 p.
Voronova OK. Development of models and algorithms of the automated estimation of transport function in cardiovascular system: Dissertation. Voronezh: VorSTU; 1995
Shiller N, Osipov MA. Clinical echocardiography. Moscow: Practice, 2005. 344 p.
Landau LD, Lifshitz EM. Mechanics of continuous media. M.-L., 1944. 244 p.
Fuks NA. The mechanics of aerosols. Moscow: Publishing House of the Academy of Sciences, 1955. 351 p.
Hydroacoustic encyclopedia. Ed. by Timoshenko VI. Taganrog: Publishing house of TRTU. 2000. p. 456.
Timoshenko VI, Chernov NN. Interaction and diffusion of particles in a sound field. Monograph. Rostov-on-Don: Rostizdat LLC, 2003. 304p.
Chernov NN, Zagray NP, Laguta, MV, Varenikova AY. Method for determining size of inhomogeneity localization region based on analysis of secondary wave field of second harmonic. Journal of Physics: Conference Series. 22 May 2018;1015(3). Article No. 032081.
Gong X, Liu X, Zhang D. Study of third-order nonlinear parameter C/A for biological specimens. Nonlinear Acoustics -Fundamental and Applications. 2008; Proceedings of 18th International Symposium on Nonlinear Acoustics ed B.O. Enflo, C.M. Hedberg, L Kari and Melville (New York: American Institute of Physics)
Borisov AV, Kuznetsov SP, Mamaev IS, Tenenev VA. Describing the motion of a body with an elliptical cross section in a viscous uncompressible fluid by model equations reconstructed from data processing. Technical Physics Letters. 2016;42(9):886-90 DOI: 10.1134/S1063785016090042
Vetchanin EV, Mamaev IS, Tenenev VA. The self-propulsion of a body with moving internal masses in a viscous fluid. Regular and Chaotic Dynamics. 2013;18(1-2):100-17 DOI: 10.1134/S1560354713010073
Aul'chenko SM, Kaledin VO, Shpakova YV. Forced oscillations of shells of revolution in a viscous fluid flow. Technical Physics Letters. 2009;35(2):114-6 DOI: 10.1134/S1063785009020059
Chernov NN, Laguta MV, Varenikova AY. Research of appearance and propagation of higher harmonics of acoustic signals in the nonlinear media. Journal of Pharmaceutical Sciences and Research. November 2017;9(11):2241-6
Bur'Kov DV, Starchenko IB, Timoshenko VI. Scattering of parametric array signals by spherical unregularities. 4th International Conference on Actual Problems of Electronic Instrument Engineering, APEIE 1998 -Proceedings, Volume 1998, September, 1998, Pages 263-264
Voronin VA, Kotlyarov VV, Kuznetsov VP, et al. Investigation of a receiving parametric array with extended base. Akusticheskii Zurnal. March 1992;38(2):353-6.

Еще

Отчет