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Tees, David F.J. - Department of Physics and Astronomy, Ohio University
Simulation of Cell Adhesion to Bioreactive Surfaces in Shear: The Effect of Cell Size
Biophysical Journal Volume 71 August 1996 1102-1114 Kinetics and Locus of Failure of Receptor-Ligand-Mediated Adhesion
Biographical Sketch: David Tees, Associate Professor, Ohio University a. Professional preparation
In situ Microrheological Determination of Neutrophil Stiffening Following Adhesion in a Model Capillary
Biophysical Journal Volume 71 August 1996 1115-1122 Kinetics and Locus of Failure of Receptor-Ligand-Mediated Adhesion
Biophysical Journal Volume 65 September 1993 1318-1334 Interaction Forces between Red Cells Agglutinated by Antibody.
Curriculum Vitae David F. J. Tees, Ph.D., Associate Professor Curriculum Vitae
Leukocyte adhesion to the vascular endothelium (the layer of cells that lines the blood vessel walls) plays a central role in
A Microcantilever Device to Assess the Effect of Force on the Lifetime of Selectin-Carbohydrate Bonds
Probabilistic Modeling of Shear-Induced Formation and Breakage of Doublets Cross-Linked by Receptor-Ligand Bonds
The Nanoscale Biophysics of Microscale Cell Adhesion
This article was downloaded by:[Tees, David F. J.] On: 28 February 2008
Fluids in Motion Supplement I Cutnell & Johnson describe a number of different types of flow
The state diagram for cell adhesion under flow: Leukocyte rolling and firm adhesion
