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AJP - Heart and Circulatory Physiology, Vol 270, Issue 4 1371-H1380, Copyright © 1996 by American Physiological Society
ARTICLES |
H. H. Lipowsky, D. A. Scott and J. S. Cartmell
Bioengineering Program, Pennsylvania State University, University Park 16802, USA. hhlbio@enger.psu.edu
To explore the relationship between the rolling velocity of leukocytes (VWBC) and wall shear rates (gamma), measurements of VWBC were made along the length of rat mesenteric venules in which a gradient in gamma was induced by compressing the venule with a blunted microprobe to form a stenosis in which gamma varied from 300 to 1500 s-1. For individual WBCs that rolled through stenosis, VWBC was proportional to gamma for its entire range, in contrast to previous studies that have shown a plateau in VWBC vs. gamma for the ensemble population. Comparisons of the slope of VWBC/gamma for individual cells with ensemble values of VWBC obtained in the entrance region of the stenosis were made during suffusion of the tissue with the chemoattractant N-formylmethionyl-leucyl-phenylalanine (FMLP), to increase WBC-EC adhesion and WBC stiffness, or colchicine and cytochalasin B to increase WNC deformability. Under control conditions, the slope of individual cells was significantly 20% greater than VWBC/gamma, whereas it was significantly reduced by 48% during suffusion with FMLP. With exposure to colchicine, the slope was 78% lower than VWBC/gamma and compared with control was similar in magnitude to that obtained with FMLP. Cytochalasin also reduced the slope by 22% compared with control and 34% compared with VWBC/ gamma. The diminished slopes of VWBC vs. gamma were consistent with published theoretical models that suggest a reduced slope with increased strength of adhesion of WBC deformability. It is thus concluded that the apparent plateau in VWBC vs. gamma arises due to the heterogeneity of adhesive and/or deformability properties in the ensemble population of circulating WBCs.
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