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Fractional order models of viscoelasticity as an alternative in the analysis of red blood cell (RBC) membrane mechanics.
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2
The Concepts and Applications of Fractional Order Differential Calculus in Modeling of Viscoelastic Systems: A Primer.
Crit Rev Biomed Eng. 2019;47(4):249-276. doi: 10.1615/CritRevBiomedEng.2018028368.
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A multiscale red blood cell model with accurate mechanics, rheology, and dynamics.
Biophys J. 2010 May 19;98(10):2215-25. doi: 10.1016/j.bpj.2010.02.002.
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Fractional calculus in bioengineering, part 2.
Crit Rev Biomed Eng. 2004;32(2):105-93. doi: 10.1615/critrevbiomedeng.v32.i2.10.
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A fractional derivative model to describe arterial viscoelasticity.
Biorheology. 2007;44(4):251-63.
6
Alteration of red cell membrane viscoelasticity by heat treatment: effect on cell deformability and suspension viscosity.
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Fractal ladder models and power law wave equations.
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Fractional calculus in bioengineering.
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Fractional calculus in bioengineering, part 3.
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Mechanical properties of the human red blood cell membrane at -15 degrees C.
Cryobiology. 2009 Aug;59(1):24-7. doi: 10.1016/j.cryobiol.2009.04.001. Epub 2009 Apr 9.

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A numerical approach to fractional Volterra-Fredholm integro-differential problems using shifted Chebyshev spectral collocation.
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The contributions of relative brain viscosity to brain function and health.
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Fractional-Order Modeling of Arterial Compliance in Vascular Aging: A Computational Biomechanical Approach for Investigating Cardiovascular Dynamics.
IEEE Open J Eng Med Biol. 2023 Dec 14;5:650-660. doi: 10.1109/OJEMB.2023.3343083. eCollection 2024.
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Rheological properties of porcine organs: measurements and fractional viscoelastic model.
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Using torsional wave elastography to evaluate spring pot parameters in skin tumor mimicking phantoms.
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Agarose as a Tissue Mimic for the Porcine Heart, Kidney, and Liver: Measurements and a Springpot Model.
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Biomechanical Modelling of Porcine Kidney.
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Healthy human skin Kelvin-Voigt fractional and spring-pot biomarkers reconstruction using torsional wave elastography.
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Parameter Sensitivity and Experimental Validation for Fractional-Order Dynamical Modeling of Neurovascular Coupling.
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Assessment of Fractional-Order Arterial Windkessel as a Model of Aortic Input Impedance.
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本文引用的文献

1
The nonlinear mechanical response of the red blood cell.
Phys Biol. 2008 Aug 13;5(3):036007. doi: 10.1088/1478-3975/5/3/036007.
2
Fractional-order viscoelasticity applied to describe uniaxial stress relaxation of human arteries.
Phys Med Biol. 2008 Sep 7;53(17):4543-54. doi: 10.1088/0031-9155/53/17/006. Epub 2008 Aug 1.
3
A fractional derivative model to describe arterial viscoelasticity.
Biorheology. 2007;44(4):251-63.
4
Rheological behavior of living cells is timescale-dependent.
Biophys J. 2007 Oct 15;93(8):L39-41. doi: 10.1529/biophysj.107.116582. Epub 2007 Aug 10.
5
Viscoelasticity of the human red blood cell.
Am J Physiol Cell Physiol. 2007 Aug;293(2):C597-605. doi: 10.1152/ajpcell.00562.2006. Epub 2007 Apr 11.
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Fractional derivatives embody essential features of cell rheological behavior.
Ann Biomed Eng. 2003 Jun;31(6):692-9. doi: 10.1114/1.1574026.
7
Lung tissue viscoelasticity: a mathematical framework and its molecular basis.
J Appl Physiol (1985). 1994 Jun;76(6):2749-59. doi: 10.1152/jappl.1994.76.6.2749.

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