Abstract
Biomechanical properties of cells play a very important role in regulating cells function. Experimental studies found that when Leukocytes move near the vessel wall, the phenomena such as rolling, jumping and adhesion will appear. Based on the non-linear fluid-structure interaction theory, leukocyte’s tiny jumping mechanism and rolling phenomenon were studied. The results were: 1) The choice of time step of leukocyte had a great influence on the movement of leukocyte. Instead of landing on the bottom of flow chamber, leukocyte jumped to a certain height and then moved periodically toward the bottom of the flow chamber again. Leukocyte had the biggest deformation when jumping; 2) Adhesion and rolling along the bottom of the flow chamber appeared in the process of moving forward, the scrolling speed was greater than that of pure rolling. Leukocytes’ movement in blood vessels was closely related with body physiological and pathological characteristics. The study of dynamic movement of leukocyte provided theoretical basis for clinical medicine.
Highlights
IntroductionIt deforms and charged with a lot of responsibilities
Leukocyte, named as immune cells, is spherical
Leukocyte moved to the bottom of the blood vessels due to gravity
Summary
It deforms and charged with a lot of responsibilities. Chang et al [3] pointed out that there are three kinds of cell adhesion: firm adhesive, transient adhesive (rolling) and no adhesive. They found that the unstressed dissociation rate and the bond interaction length are the most important molecular properties to control the dynamics of adhesion. Sequeira et al [7] adopted the lattice Boltzmann model to study the dynamic change of white blood cells within micro-vessels, which showed that the movement greatly depended on the white blood cell velocity and endothelial wall attraction. We analyzed the movement of a single leukocyte in the flow chamber through nu-
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