TY - JOUR
T1 - Dynamics of a compound vesicle in shear flow
AU - Veerapaneni, Shravan K.
AU - Young, Y. N.
AU - Vlahovska, Petia M.
AU - Bławzdziewicz, Jerzy
PY - 2011/4/14
Y1 - 2011/4/14
N2 - The dynamics of a compound vesicle (a lipid bilayer membrane enclosing a fluid with a suspended particle) in shear flow is investigated by using both numerical simulations and theoretical analysis. We find that the nonlinear hydrodynamic interaction between the inclusion and the confining membrane gives rise to new features of the vesicle dynamics: The transition from tank treading to tumbling can occur in the absence of any viscosity mismatch, and a vesicle can swing if the enclosed particle is nonspherical. Our results highlight the complex effects of internal cellular structures have on cell dynamics in microcirculatory flows. For example, parasites in malaria-infected erythrocytes increase cytoplasmic viscosity, which leads to increase in blood viscosity.
AB - The dynamics of a compound vesicle (a lipid bilayer membrane enclosing a fluid with a suspended particle) in shear flow is investigated by using both numerical simulations and theoretical analysis. We find that the nonlinear hydrodynamic interaction between the inclusion and the confining membrane gives rise to new features of the vesicle dynamics: The transition from tank treading to tumbling can occur in the absence of any viscosity mismatch, and a vesicle can swing if the enclosed particle is nonspherical. Our results highlight the complex effects of internal cellular structures have on cell dynamics in microcirculatory flows. For example, parasites in malaria-infected erythrocytes increase cytoplasmic viscosity, which leads to increase in blood viscosity.
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U2 - 10.1103/PhysRevLett.106.158103
DO - 10.1103/PhysRevLett.106.158103
M3 - Article
C2 - 21568618
AN - SCOPUS:79960626616
SN - 0031-9007
VL - 106
JO - Physical review letters
JF - Physical review letters
IS - 15
M1 - 158103
ER -