Mathematical modeling of normal-pressure hydrocephalus at different levels of the brain geometry detalization
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Publication:2121365
DOI10.1134/S0021894421040155zbMath1486.92049OpenAlexW3217634941MaRDI QIDQ2121365
O. B. Bogomyakova, G. S. Yan'kova, A. A. Tulupov, Alexander K. Khe, Alexander A. Cherevko
Publication date: 4 April 2022
Published in: Journal of Applied Mechanics and Technical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1134/s0021894421040155
finite element methodmagnetic resonance imagingcerebrospinal fluidporoelasticitynormal-pressure hydrocephalus
Uses Software
Cites Work
- Poromechanics of freezing materials
- Aging impact on brain biomechanics with applications to hydrocephalus
- Cerebral water transport using multiple-network poroelastic theory: application to normal pressure hydrocephalus
- Effect of non-linear permeability in a spherically symmetric model of hydrocephalus
- New development in freefem++
- A hydroelastic model of hydrocephalus
- Numerical simulation of the consequences of a mechanical action on a human brain under a skull injury
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