Spatial variations in endothelial barrier function in disturbed flows in vitro

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Spatial variations in endothelial barrier function in disturbed flows in vitro

Jeffrey E. Phelps and Natacha DePaola

Department of Biomedical Engineering, Rensselaer Polytechnic Institute, Troy, New York 12180

Hindered barrier function has been implicated in the initiation and progression of atherosclerosis, a disease of focal natureassociated with altered hemodynamics. In this study, endothelialpermeability to macromolecules and endothelial electrical resistancewere investigated in vitro in monolayers exposed to disturbedflow fields that model spatial variations in fluid shear stressfound at arterial bifurcations. After 5 h of flow, areas of highshear stress gradients showed a 5.5-fold increase in transendothelialtransport of dextran (molecular weight 70,000) compared with no-flowcontrols. Areas of undisturbed fully developed flow, within thesame monolayer, showed a 2.9-fold increase. Monolayer electricalresistance decreased with exposure to flow. The resistance measuredduring flow and the rate of change in monolayer resistance afterremoval of flow were lowest in the vicinity of flow reattachment(highest shear stress gradients). These results demonstrate thatendothelial barrier function and permeability to macromoleculesare regulated by spatial variations in shear stress forces invitro.

endothelial permeability; electrical impedance; atherosclerosis; intercellular gaps

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