**5. References**


Ross, R. (1999). Atherosclerosis--an inflammatory disease. *N Engl J Med*, 340, 2, (January

Ross, R.; Glomset, J. & Harker, L. (1977). Response to injury and atherogenesis. *Am J Pathol*,

Kelly, M.; Hwang, J. & Kubes, P. (2007). Modulating leukocyte recruitment in inflammation.

Miyasaka, M.; Kawashima, H.; Korenaga, R. & Ando, J. (1997). Involvement of selectins in

Kubes, P. & Kerfoot, S. (2001). Leukocyte recruitment in the microcirculation: the rolling

Rao, R.; Yang, L.; Garcia-Cardena, G. & Luscinskas, F. (2007). Endothelial-dependent

Iiyama, K.; Hajra, L.; Iiyama, M.; Li, H.; DiChiara, M.; Medoff, B. & Cybulsky, M. (1999).

Schenkel, A.; Mamdouh, Z. & Muller, W. (2004). Locomotion of monocytes on endothelium is a critical step during extravasation. *Nat Immunol*, 5, 4, (April 2004), pp. (393-400) Glagov, S.; Zarins, C.; Giddens, D. & Ku, D. (1988). Hemodynamics and atherosclerosis.

Nichols, W. & O'Rourke, M. (1990). McDonald's Blood Flow in Arteries; theoretical,

Ku D. (1997). Blood flow in arteries. *Annual Review of Fluid Mechanics*, 29, 1, (1997), pp. (399-434) Malek, A. M.; Alper, S. L. & Izumo, S. (1999). Hemodynamic shear stress and its role in

Myers, J.; Moore, J.; Ojha, M.; Johnston, K. & Ethier, C. (2001). Factors influencing blood flow

Firrell, J. & Lipowsky, H. (1989). Leukocyte margination and deformation in mesenteric venules of rat. *Am J Physiol*, 256, 6 Pt 2, (June 1989), pp. (H1667-H1674) Lawrence, M.; Kansas, G.; Kunkel, E. & Ley, K. (1997). Threshold levels of fluid shear

Evans, E.; Leung, A.; Heinrich, V. & Zhu, C. (2004). Mechanical switching and coupling

Cozens-Roberts, C.; Quinn, J. & Lauffenberger, D. (1990). Receptor-mediated adhesion

Tees, D. & Goetz, D. (2003). Leukocyte adhesion: an exquisite balance of hydrodynamic and

Marshall, B.; Long, M.; Piper, J.; Yago, T.; McEver, R. & Zhu, C. (2003). Direct observation of catch bonds involving cell-adhesion molecules. *Nature*, 423, 6936, (May 2003), pp. (190-193) Sarangapani, K.; Yago, T.; Klopocki, A.; Lawrence, M.; Fieger, C.; Rosen, S.; McEver, R. &

molecular forces. *News Physiol Sci*, 18, (October 2003), pp. (186-190)

atherosclerosis. *JAMA*, 282, 21, (December 1999), pp. (2035-2042)

paradigm revisited. *News Physiol Sci*, 16, (April 2001), pp. (76-80)

lesion formation. *Circ Res*, 85, 2, (July 1999), pp. (199-207)

*Med*, 112, 10, (October 1988), pp. (1018-1031)

atherogenesis: a primary or secondary event? *Ann N Y Acad Sci*, 811, (April 1997),

mechanisms of leukocyte recruitment to the vascular wall. *Circ Res*, 101, 3, (August

Patterns of vascular cell adhesion molecule-1 and intercellular adhesion molecule-1 expression in rabbit and mouse atherosclerotic lesions and at sites predisposed to

Insights and perspectives gained from studies of human arteries. *Arch Pathol Lab* 

experimental and clinical principles. Third Edition, (1990), pp. (1-456), Lea &

patterns in the human right coronary artery. *Ann Biomed Eng*, 29, 2, (February

promote leukocyte adhesion through selectins (CD62L,P,E). *J Cell Biol*, 136, 3,

between two dissociation pathways in a P-selectin adhesion bond. *Proc Natl Acad* 

phenomena. Model studies with the Radical-Flow Detachment Assay. *Biophys J*, 58,

Zhu, C. (2004). Low force decelerates L-selectin dissociation from P-selectin

1999), pp. (115-126)

2007), pp. (234-247)

Febiger, Philadelphia

2001), pp. (109-120)

(February 1997), pp. (717-727)

1, (July 1990), pp. (107-125)

*Sci U S A*, 101, 31, (August 2004), pp. (11281-11286)

pp. (25-34)

86, 3, (March 1977), pp. (675-684)

*J Allergy Clin Immunol*, 120, 1, (2007), pp. (3-10)

glycoprotein ligand-1 and endoglycan. *Journal of Biological Chemistry*, 279, 3, (January 2004), pp. (2291-2298)

