Arterial heparin deposition: role of diffusion, convection, and extravascular space.

Transvascular transport has been studied with atherogenic, tracer, and inert compounds such as low-density lipoprotein, horseradish peroxidase, and albumin, respectively. Few studies used vasoactive compounds, and virtually all studies examined entry from the lumen and not from the perivascular space. We compared several mechanisms that govern arterial heparin deposition after administration to the perivascular and endovascular aspects of the calf carotid artery in vitro and the rabbit iliac artery in vivo. In the absence of transmural hydrostatic pressure gradients, heparin deposition following endovascular administration was unaffected by deendothelialization and was indistinguishable from perivascular delivery. Deposition in the former was enhanced by the addition of a pressure gradient and to a greater extent in denuded arteries, indicating that convection influences transport but is dampened by the endothelium. Neither the endothelium nor the adventitia pose significant resistances to heparin. Deposition in vivo was greater following endovascular hydrogel release than perivascular application from similar devices to native or denuded arteries. The loss of drug to extra-arterial microvessels exceeded the loss of drug to the lumen flow. These findings are essential for describing vascular pharmacokinetics and for implementing local pharmacotherapies.

[1]  G. Truskey,et al.  Measurement of endothelial permeability to 125I-low density lipoproteins in rabbit arteries by use of en face preparations. , 1992, Circulation research.

[2]  E. Edelman,et al.  Mechanisms of transmural heparin transport in the rat abdominal aorta after local vascular delivery. , 1995, Circulation research.

[3]  C. J. Schwartz,et al.  Aortic endothelial permeability to albumin: focal and regional patterns of uptake and transmural distribution of 131I-albumin in the young pig. , 1974, Experimental and molecular pathology.

[4]  J. Tarbell,et al.  Macromolecular transport through the deformable porous media of an artery wall. , 1994, Journal of biomechanical engineering.

[5]  D. B. Zilversmit,et al.  The Distribution of Labeled Albumin across the Rabbit Thoracic Aorta in Vivo , 1977, Circulation research.

[6]  C. P. Winlove,et al.  Net albumin transport across the wall of the rabbit common carotid artery perfused in situ. , 1980, Atherosclerosis.

[7]  E. Edelman,et al.  Computational simulations of local vascular heparin deposition and distribution. , 1996, The American journal of physiology.

[8]  P. Blackshear,et al.  Hydraulic conductivity of the endothelial and outer layers of the rabbit aorta. , 1979, The American journal of physiology.

[9]  J. Finkelstein,et al.  Evaluation of the permeability parameters (influx, efflux and volume of distribution) of arterial wall for LDL and other proteins. , 1976, Advances in experimental medicine and biology.

[10]  S. Weinbaum,et al.  Enhanced macromolecular permeability of aortic endothelial cells in association with mitosis. , 1988, Atherosclerosis.

[11]  K. Parker,et al.  Uptake of 125I albumin by the endothelial surface of the isolated dog common carotid artery: effect of certain physical factors and metabolic inhibitors. , 1975, Cardiovascular research.

[12]  A. Tedgui,et al.  Effects of pressure-induced stretch and convection on low-density lipoprotein and albumin uptake in the rabbit aortic wall. , 1996, Circulation research.

[13]  G M Saidel,et al.  Relative significance of endothelium and internal elastic lamina in regulating the entry of macromolecules into arteries in vivo. , 1994, Circulation research.

[14]  G. Truskey,et al.  Quantitative Analysis of Protein Transport in the Arterial Wall , 1981 .

[15]  M. Lever,et al.  The interaction of convection and diffusion in the transport of 131I-albumin within the media of the rabbit thoracic aorta. , 1985, Circulation research.

[16]  J. Hubbell,et al.  Inhibition of thrombosis and intimal thickening by in situ photopolymerization of thin hydrogel barriers. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[17]  G. Saidel,et al.  Transport of macromolecules in arterial wallin vivo: A mathematical model and analytical solutions , 1987, Bulletin of mathematical biology.

[18]  P. J. Hurley,et al.  The distribution of radio-iodinated serum albumin and low-density lipoprotein in tissues and the arterial wall. , 1970, Atherosclerosis.

[19]  S. Dayton,et al.  Recent advances in molecular pathology: a review. Cholesterol flux and metabolism in arterial tissue and in atheromata. , 1970, Experimental and molecular pathology.

[20]  E. Edelman,et al.  Drug clearance and arterial uptake after local perivascular delivery to the rat carotid artery. , 1997, Journal of the American College of Cardiology.

[21]  J. Rutledge,et al.  Low density lipoprotein transport across a microvascular endothelial barrier after permeability is increased. , 1990, Circulation research.

[22]  R. Lees,et al.  Transport of 125I-albumin across normal and deendothelialized rabbit thoracic aorta in vivo. , 1984, Arteriosclerosis.

[23]  A. Tedgui,et al.  Albumin transport characteristics of rat aorta in early phase of hypertension. , 1992, Circulation research.

[24]  J. Cornfield,et al.  The effect of blood pressure on the passage of labeled plasma albumin into canine aortic wall. , 1962, The Journal of clinical investigation.

[25]  P. Curmi,et al.  Effect of transmural pressure on low density lipoprotein and albumin transport and distribution across the intact arterial wall. , 1990, Circulation research.

[26]  S. Weinbaum,et al.  The role of arterial endothelial cell mitosis in macromolecular permeability. , 1988, Advances in experimental medicine and biology.

[27]  M. Penn,et al.  Relation between lipopolysaccharide-induced endothelial cell injury and entry of macromolecules into the rat aorta in vivo. , 1991, Circulation research.

[28]  D. B. Zilversmit CHOLESTEROL FLUX IN THE ATHEROSCLEROTIC PLAQUE * , 1968, Annals of the New York Academy of Sciences.

[29]  N. Liron,et al.  Steady albumin transport in the rabbit common carotid artery [proceedings]. , 1979, The Journal of physiology.

[30]  M. Karnovsky,et al.  Transcapillary transport by pinocytosis. , 1970, Microvascular research.

[31]  R. Lees,et al.  The distribution of labeled low-density lipoproteins across the rabbit thoracic aorta in vivo. , 1977, Atherosclerosis.

[32]  B. Goldman,et al.  Influence of pressure on permeability of normal and diseased muscular arteries to horseradish peroxidase. A new catheter approach. , 1987, Atherosclerosis.

[33]  R. Tompkins,et al.  Low-density lipoprotein transport in blood vessel walls of squirrel monkeys. , 1989, The American journal of physiology.

[34]  S M Schwartz,et al.  Visualization and quantification of transmural concentration profiles of macromolecules across the arterial wall. , 1990, Circulation research.

[35]  M. Slepian Polymeric endoluminal gel paving: therapeutic hydrogel barriers and sustained drug delivery depots for local arterial wall biomanipulation. , 1996, Seminars in interventional cardiology : SIIC.

[36]  D. L. Fry Effect of pressure and stirring on in vitro aortic transmural 125I-albumin transport. , 1983, The American journal of physiology.