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Volume 13, Issue 2 (2021)
Iran J War Public Health 2021, 13(2): 131-138 |
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Received: 2021/09/1 | Accepted: 2021/09/8 | Published: 2021/10/6
Received: 2021/09/1 | Accepted: 2021/09/8 | Published: 2021/10/6
How to cite this article
Samajpaty S. Calculating the Fluid Pressure of Aorta according to the Principles of Hemomechanics in Injuries and Trauma. Iran J War Public Health 2021; 13 (2) :131-138
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URL: http://ijwph.ir/article-1-1010-en.html
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Authors
S. Samajpaty *
Department of General Medicine, International Faculty, Pirogov Russian National Research Medical University (RNRMU), Moscow, Russian Federation
Abstract (1584 Views)
Aims: Blood and its pressure is an important issue in trauma and injuries. This study reviewed the pathology of hemodynamic disorders in the light of hemo-mechanics to determine the principles of "Hemomechanics" concerning already proven chemo-physical basis and determine the fluid pressure of the aorta through the mathematical application.
Calculations & Methods: The article is a mathematical and physical endeavor to resolve the in-depth questions of blood physiology and pathology. Didactic and theoretical methods were used for this research.
Findings: Changing the latent shear force of blood initiates the wear and tear process in the circulatory system, ultimately damaging the endothelium.
Conclusion: The four laws of hemomechanics derived here help better understand normal blood physiology, hematology, blood pressure in a broader aspect, and the co-relation of gravitational force with the blood flow in terms of fluidity.
Calculations & Methods: The article is a mathematical and physical endeavor to resolve the in-depth questions of blood physiology and pathology. Didactic and theoretical methods were used for this research.
Findings: Changing the latent shear force of blood initiates the wear and tear process in the circulatory system, ultimately damaging the endothelium.
Conclusion: The four laws of hemomechanics derived here help better understand normal blood physiology, hematology, blood pressure in a broader aspect, and the co-relation of gravitational force with the blood flow in terms of fluidity.
Keywords:
References
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