Direct numerical simulation of single leukocyte deformation in microchannel flow for disease diagnosis

To better understand the physical mechanism of leukocyte separation via microfluidics, a level set method was employed to analyze the coupled deformation-flow of individual leukocytes in microfluidic parabolic shear blood flow. The results show that: (1) Weber number and viscosity ratio have great effects on the deformation of single leukocyte, (2) difference between the deformation and motion behavior of different subtypes of leukocytes (i.e.; granulocytes, lymphocytes, monocytes) was observed, and (3) the existence of a second leukocyte significantly changes the leukocyte deformation and motion. These results shed light on the understanding of the motion and deformation of leukocytes in microchannel flow and provide a theoretical foundation for separating lymphocytes via microfluidics.