Background: Demonstration of blood flow direction inside cardiac chambers can provide valuable information in normal subjects and pathologic cardiac processes. In our center we have already created a software able to generate the left ventricle (LV) model, the most important chamber of the heart. Method: The fundamental quantity that describes the motion of the fluid is represented by the vorticity defined as the tendency of fluid elements to spin; more precisely, vorticity can be related to rotation of fluid elements and the formation of circulatory areas. Quantitative parameters of the intra-ventricular vortex were also extracted on the basis of the vorticity. Result: In the left ventricle: blood flows through the mitral valve, hits the lateral left ventricular free wall, turbulences clockwise at the apex of the heart, hits the septal wall and flows towards the aortic valve. Conclusion: Technical points in our field of study can succeed us to gain a good understanding about the material. For blood flow direction inside the left ventricle, we can propose some tricky points: 1-Factors affecting blood direction inside the left ventricle? 2-Why does the blood flow at the present direction inside the left ventricle?
| Published in | International Journal of Medical Imaging (Volume 2, Issue 2) |
| DOI | 10.11648/j.ijmi.20140202.12 |
| Page(s) | 14-18 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2014. Published by Science Publishing Group |
Mathematical Modeling, Blood Flow Direction, The Left Ventricular Modeling, Wall-Fluid Interaction Problem
| [1] | Mittal R., Iaccarino G.: Immersed boundary methods.Annual Review of Fluid Mechanics.2005; 37:239–261 |
| [2] | Kim WY., Walker PG., Pedersen EM., Poulsen JK., Oyre S., Houlind K.: Left ventricular blood flow patterns in normal subjects: a quantitative analysis by three-dimensional magnetic resonance velocity mapping. J Am SocEchocardiogr. 1995;26: 24-38 |
| [3] | Kilner PJ., Yang G-Z., Wilkes AJ., Mohiaddin RH., Firmin DN., Yacoub MH.: Asymmetric redirection of flow through the heart. Nature. 2000;404 :59-61 |
| [4] | Bellhouse BJ.: Fluid mechanics of a model mitral valve and left ventricle. Cardiovasc Res.1972; 6:199-210 |
| [5] | Domenichini F., Pedrizzetti G., BaccaniB.:Three-dimensional filling flow into a model left ventricle. J Fluid Mech. 2005;539:79-98 |
| [6] | Kim HB., Hertzberg JR., Shandas R.: Development and validation of echo PIV. Exp Fluids 2004; 36: 55-62 |
| [7] | Zheng H., Liu L., Williams L., Hertzberg JR., Lanning C., Shandas R.: Real time multicomponent echo particle image velocimetry technique for opaque flow imaging. ApplPhysLett 2006;88:1-3 |
| [8] | Sengupta PP., Khandheria BK., Korinek J., Jahangir A., Yoshifuku S., Milosevc I.: Left ventricular isovolumic flow sequence during sinus and paced rhythms: new insights from use of high-resolution Doppler and ultrasonic digital particle imaging velocimetry. J Am CollCardiol. 2007;49:899-908 |
| [9] | Hong G-R., Pedrizzetti G., Tonti G., Li P., Wei Z., Kim JK., et al.: Characterization and quantification of vortex flow in the human left ventricle by contrast echocardiography using vector particle image velocimetry. J Am CollCardiolImg.2008; 1:5-17 |
| [10] | Adrian RJ.:Particle-imaging techniques for experimental fluid mechanics. Ann Rev Fluid Mech. 1991 ; 23:261-304 |
| [11] | Kheradvar A., Kasalko J., Johnson D., Gharib M.: An in vitro study of changing profile heights in mitral bioprostheses and their influence on flow. ASAIO J. 2006; 52:34-8 |
| [12] | Batchelor GK.: An introduction to fluid dynamics. Cambridge, UK: Cambridge |
| [13] | University Press 1970.Sengupta PP., Korinek J., Belohlavek M., Narula J., Vannan MA., Jahangir A.: Left ventricular structure and function: basic science for cardiac imaging. J Am CollCardiol.2006; 48:1988-2001 |
| [14] | Karvandi M., Ranjbar S., Hassantash S. A.: Achievability of the Assessment of the Mitral Valve Leaflets by Mathematical Equations of Inelasticity Based on EchocardiographyPoster presentation at AmericanEcho. Abstract: P2-92 2012. |
| [15] | Geu-Ru Hong G. R., Pedrizzetti G., Giovanni Tonti G., Li P., Wei Z., Kim J.K., Baweja A., Liu S., Namsik Chung N., Houle H., Narul J., Vannan M. A.: Characterization and quantification of Vortex Flow in the Human Left Ventricle by contrast echocardiography using vector particle Image velocimetry. Jacc: Cardiovascular imaging.2008; 1:705-717 |
| [16] | Ranjbar S., Karvandi M., Hassantash S.A. :A novel mathematical based software for modeling the left ventricular myocardium. Poster presentation at Euroecho. Abstract: P448 2012. |
| [17] | Ranjbar S., Karvandi M., Hassantash S. A.:A novel mathematical based software to demonstrate flow direction and curves inside the left ventricular myocardium.Poster presentation at Euroecho. Abstract: P142 2012. |
| [18] | Ranjbar S., Karvandi M., Hassantash S. A.: A Novel Mathematical Fluid Dynamic of Left Ventricular Dilated Cardiomyopathy. Poster presentation at Americanecho. Abstract: P2-89 2012. |
| [19] | Ranjbar S., Karvandi M., Hassantash S. A.: Impact of prosthetic mitral valve direction on blood flow path inside the left ventricle. . Poster presentation at Euroecho. Abstract: P516 2012. |
| [20] | Ranjbar S., Karvandi M., Ajzachi M.: System and method modeling left ventricle of heart. US Patent 2013; patent number 8,414,490. |
APA Style
Mersedeh Karvandi, Saeed Ranjbar, Seyed Ahmad Hassantash. (2014). Dynamic Features Creating (Which Cause) the Blood Direction Inside the Left Ventricle. International Journal of Medical Imaging, 2(2), 14-18. https://doi.org/10.11648/j.ijmi.20140202.12
ACS Style
Mersedeh Karvandi; Saeed Ranjbar; Seyed Ahmad Hassantash. Dynamic Features Creating (Which Cause) the Blood Direction Inside the Left Ventricle. Int. J. Med. Imaging 2014, 2(2), 14-18. doi: 10.11648/j.ijmi.20140202.12
AMA Style
Mersedeh Karvandi, Saeed Ranjbar, Seyed Ahmad Hassantash. Dynamic Features Creating (Which Cause) the Blood Direction Inside the Left Ventricle. Int J Med Imaging. 2014;2(2):14-18. doi: 10.11648/j.ijmi.20140202.12
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Download@article{10.11648/j.ijmi.20140202.12,
author = {Mersedeh Karvandi and Saeed Ranjbar and Seyed Ahmad Hassantash},
title = {Dynamic Features Creating (Which Cause) the Blood Direction Inside the Left Ventricle},
journal = {International Journal of Medical Imaging},
volume = {2},
number = {2},
pages = {14-18},
doi = {10.11648/j.ijmi.20140202.12},
url = {https://doi.org/10.11648/j.ijmi.20140202.12},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijmi.20140202.12},
abstract = {Background: Demonstration of blood flow direction inside cardiac chambers can provide valuable information in normal subjects and pathologic cardiac processes. In our center we have already created a software able to generate the left ventricle (LV) model, the most important chamber of the heart. Method: The fundamental quantity that describes the motion of the fluid is represented by the vorticity defined as the tendency of fluid elements to spin; more precisely, vorticity can be related to rotation of fluid elements and the formation of circulatory areas. Quantitative parameters of the intra-ventricular vortex were also extracted on the basis of the vorticity. Result: In the left ventricle: blood flows through the mitral valve, hits the lateral left ventricular free wall, turbulences clockwise at the apex of the heart, hits the septal wall and flows towards the aortic valve. Conclusion: Technical points in our field of study can succeed us to gain a good understanding about the material. For blood flow direction inside the left ventricle, we can propose some tricky points: 1-Factors affecting blood direction inside the left ventricle? 2-Why does the blood flow at the present direction inside the left ventricle?},
year = {2014}
}
TY - JOUR T1 - Dynamic Features Creating (Which Cause) the Blood Direction Inside the Left Ventricle AU - Mersedeh Karvandi AU - Saeed Ranjbar AU - Seyed Ahmad Hassantash Y1 - 2014/03/20 PY - 2014 N1 - https://doi.org/10.11648/j.ijmi.20140202.12 DO - 10.11648/j.ijmi.20140202.12 T2 - International Journal of Medical Imaging JF - International Journal of Medical Imaging JO - International Journal of Medical Imaging SP - 14 EP - 18 PB - Science Publishing Group SN - 2330-832X UR - https://doi.org/10.11648/j.ijmi.20140202.12 AB - Background: Demonstration of blood flow direction inside cardiac chambers can provide valuable information in normal subjects and pathologic cardiac processes. In our center we have already created a software able to generate the left ventricle (LV) model, the most important chamber of the heart. Method: The fundamental quantity that describes the motion of the fluid is represented by the vorticity defined as the tendency of fluid elements to spin; more precisely, vorticity can be related to rotation of fluid elements and the formation of circulatory areas. Quantitative parameters of the intra-ventricular vortex were also extracted on the basis of the vorticity. Result: In the left ventricle: blood flows through the mitral valve, hits the lateral left ventricular free wall, turbulences clockwise at the apex of the heart, hits the septal wall and flows towards the aortic valve. Conclusion: Technical points in our field of study can succeed us to gain a good understanding about the material. For blood flow direction inside the left ventricle, we can propose some tricky points: 1-Factors affecting blood direction inside the left ventricle? 2-Why does the blood flow at the present direction inside the left ventricle? VL - 2 IS - 2 ER -
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