Eggleton, Charles DBanton, Rohan JPrabhukhot, Grishma2021-01-292021-01-292018-01-0111933http://hdl.handle.net/11603/20723Polymorphonuclear (PMN) leukocytes, when rolling on endothelium, undergoes deformation, the PSGL-1 molecules form bonds with the P-selectin molecules on the surface of the endothelium in a linear shear field. We have studied the effects of P-selectin density on the bond formation and cell rolling mechanics using computational simulation and mathematical modeling. The PMN leukocyte is modeled as a 3-D deformable spherical capsule, in a Newtonian fluid, the receptor-mediated rolling of this capsule is simulated on a P-selectin coated surface. The results indicate the number of receptor-ligand bonds formed increases with an increase in the P-selectin, the rolling velocity decreases with an increase in the P-selectin density, a higher bond force is experienced by the capsule rolling on a surface with higher P-selectin density.application:pdfbond forceComputational fluid dynamicsnumerical modellingPolymorphonuclear (PMN) leukocyteP-selectinReceptor ligand bondsText