Numerical simulation and mathematical modeling of biomechanical stress distribution in poroelastic tumor tissue via magnetic field and bio-ferro-fluid DOI Creative Commons

Mahdi Halabian,

Borhan Beigzadeh, Majid Siavashi

et al.

Heliyon, Journal Year: 2024, Volume and Issue: 10(14), P. e34651 - e34651

Published: July 1, 2024

Based on scientific evidence, it seems that bio-magnetic systems can change the process of cancer cell death by affecting distribution pressure and mechanical stress in tumor tissue. Already most research has been done experimentally few mathematical modeling numerical simulations have to investigate relationship between magnetic parameters This is despite fact order be able make new equipment with help medical engineering methods, definitely necessary mathematics governing problem changes effective (such as shape source, flux density, source distance ferro-fluid volume fraction) should studied much possible. In this research, using simulation modeling, four common geometrical shapes (rectangular circular) static field were used created The results showed when density fraction also magnet tissue are kept constant, well without spending any extra energy, for a rectangular magnet, just changing way placed tissue, average biomechanical inside causes 25 % change. Also, circular doubling radius 73

Language: Английский

Numerical simulation and mathematical modeling of biomechanical stress distribution in poroelastic tumor tissue via magnetic field and bio-ferro-fluid DOI Creative Commons

Mahdi Halabian,

Borhan Beigzadeh, Majid Siavashi

et al.

Heliyon, Journal Year: 2024, Volume and Issue: 10(14), P. e34651 - e34651

Published: July 1, 2024

Based on scientific evidence, it seems that bio-magnetic systems can change the process of cancer cell death by affecting distribution pressure and mechanical stress in tumor tissue. Already most research has been done experimentally few mathematical modeling numerical simulations have to investigate relationship between magnetic parameters This is despite fact order be able make new equipment with help medical engineering methods, definitely necessary mathematics governing problem changes effective (such as shape source, flux density, source distance ferro-fluid volume fraction) should studied much possible. In this research, using simulation modeling, four common geometrical shapes (rectangular circular) static field were used created The results showed when density fraction also magnet tissue are kept constant, well without spending any extra energy, for a rectangular magnet, just changing way placed tissue, average biomechanical inside causes 25 % change. Also, circular doubling radius 73

Language: Английский

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