Toward a Mesoscopic Modeling Approach of Magnetohydrodynamic Blood Flow in Pathological Vessels: A Comprehensive Review

Ikram Cherkaoui¹, Soufiene Bettaibi², Abdelwahed Barkaoui¹, Frédéric Kuznik³

Affiliations

¹ Laboratoire des Energies Renouvelable et Matériaux Avancés, Université Internationale de Rabat (UIR), Rocade Rabat-Salé, 11100, Rabat, Morocco.
² Laboratoire des Energies Renouvelable et Matériaux Avancés, Université Internationale de Rabat (UIR), Rocade Rabat-Salé, 11100, Rabat, Morocco. Bettaibisoufiene@gmail.com.
³ INSA-Lyon, CETHIL, F-69621, Villeurbanne, France.

PMID: 37639179
DOI: 10.1007/s10439-023-03350-7

Review

Toward a Mesoscopic Modeling Approach of Magnetohydrodynamic Blood Flow in Pathological Vessels: A Comprehensive Review

Ikram Cherkaoui et al. Ann Biomed Eng. 2023 Nov.

. 2023 Nov;51(11):2415-2440.

doi: 10.1007/s10439-023-03350-7. Epub 2023 Aug 28.

Authors

Ikram Cherkaoui¹, Soufiene Bettaibi², Abdelwahed Barkaoui¹, Frédéric Kuznik³

Affiliations

¹ Laboratoire des Energies Renouvelable et Matériaux Avancés, Université Internationale de Rabat (UIR), Rocade Rabat-Salé, 11100, Rabat, Morocco.
² Laboratoire des Energies Renouvelable et Matériaux Avancés, Université Internationale de Rabat (UIR), Rocade Rabat-Salé, 11100, Rabat, Morocco. Bettaibisoufiene@gmail.com.
³ INSA-Lyon, CETHIL, F-69621, Villeurbanne, France.

PMID: 37639179
DOI: 10.1007/s10439-023-03350-7

Abstract

The investigation of magnetohydrodynamic (MHD) blood flow within configurations that are pertinent to the human anatomy holds significant importance in the realm of scientific inquiry because of its practical implications within the medical field. This article presents an exhaustive appraisal of the diverse applications of magnetohydrodynamics and their computational modeling in biological contexts. These applications are classified into two categories: simple flow and pulsatile flow. An alternative approach of traditional CFD methods called Lattice Boltzmann Method (LBM), a mesoscopic method based on kinetic theory, is introduced to solve complex problems, such as hemodynamics. The results show that the flow velocity reduces considerably by increasing the magnetic field intensity, and the flow separation area is minimized by the increase of magnetic field strength. The LBM with BGK collision model has shown good results in terms of precision. Finally, this literature review has revealed a number of potential avenues for further research. Suggestions for future works are proposed accordingly.

Keywords: Aneurysm; Blood flow; LBM; Magnetohydrodynamics; Stenosis.

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References

1. World Health Organization. Cardiovascular diseases (CVDS). www.who.int/news-room/fact-sheets/detail/cardiovascular-diseases-(cvds)
1. Basu, D., and R. Kulkarni. Overview of blood components and their preparation. Indian J. Anaesth. 2014. https://doi.org/10.4103/0019-5049.144647 .
1. Campinho, P., A. Vilfan, and J. Vermot. Blood flow forces in shaping the vascular system: a focus on endothelial cell behavior. Front. Physiol. 2020. https://doi.org/10.3389/fphys.2020.00552 .
1. Arthur, M. D., C. Guyton, Ph. D. John, and E. Hall. Textbook of Medical Physiology. Elsevier, New York 2006.
1. Saqr, K. M., S. Tupin, S. Rashad, T. Endo, K. Niizuma, T. Tominaga, and M. Ohta. Physiologic blood flow is turbulent. Sci. Rep. 2020. https://doi.org/10.1038/s41598-020-72309-8 .

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Toward a Mesoscopic Modeling Approach of Magnetohydrodynamic Blood Flow in Pathological Vessels: A Comprehensive Review

Affiliations

Toward a Mesoscopic Modeling Approach of Magnetohydrodynamic Blood Flow in Pathological Vessels: A Comprehensive Review

Authors

Affiliations

Abstract

References

Publication types

LinkOut - more resources

Full Text Sources

Miscellaneous