THE GRADIENT OF VASCULAR PERMEABILITY

Overview

Journal J Exp Med

Specialties Allergy & Immunology
General Medicine

Date 2009 Oct 30

PMID 19869729

Citations 27

Authors

P Rous

H P GILDING

F Smith

Affiliations

Soon will be listed here.

Abstract

The permeability of the capillaries in the skeletal muscles of mammals increases progressively along their course and is greatest where they pass into the least venules. The gradient of permeability is so largely independent of functional states as to give grounds for the view that it is determined by inherent local differences. Through the gradient opportunity is equalized along the capillary. In the liver lobule this object is accomplished by an artifice of arrangement whereby the blood flow past the cells is increased with their distance from the source of supply. In the urinary bladder the interlacing of capillaries, their progressive widening, and a consequent gradual slowing of the blood flow act to achieve the same end. Here a gradient of permeability has not been demonstrable. Where cells of different sorts are served by a slender capillary, their differing requirements may render unnecessary any provision to equalize their opportunities; but where shortcomings in local maintenance will reduce the efficiency of an entire fabric, as the muscle fibre, and where cells of like character live competitively along the same channel, as in the liver, some arrangement must exist to ensure an even distribution of the services rendered by the blood. In situations of the kind last mentioned the immediate environment of the individual cell, the "milieu interne" of Bernard, is not only kept as constant as possible but it must be the same, by and large, for all of the cells. The task of serving voluntary muscle is not strictly limited to the capillaries. The intrafascicular arterioles and venules act so effectively to sustain the tissue about them that where they run no capillaries are supplied.

Citing Articles

Using cultured endothelial cells to study endothelial barrier dysfunction: Challenges and opportunities.

Aman J, Weijers E, van Nieuw Amerongen G, Malik A, van Hinsbergh V Am J Physiol Lung Cell Mol Physiol. 2016; 311(2):L453-66.

PMID: 27343194 PMC: 5504427. DOI: 10.1152/ajplung.00393.2015.

Claudin-5 controls intercellular barriers of human dermal microvascular but not human umbilical vein endothelial cells.

Kluger M, Clark P, Tellides G, Gerke V, Pober J Arterioscler Thromb Vasc Biol. 2013; 33(3):489-500.

PMID: 23288152 PMC: 3655806. DOI: 10.1161/ATVBAHA.112.300893.

The Distribution and Movement of Water and Solutes in the Human Body.

Peters J Yale J Biol Med. 2011; 5(5):431-67.

PMID: 21433573 PMC: 2606484.

About intravenous pyramidone treatment.

DORING G Klin Wochenschr. 2010; 24-25(37-38):577-85.

PMID: 20268681 DOI: 10.1007/BF01722489.

PHYSIOLOGICAL CONDITIONS EXISTING IN CONNECTIVE TISSUE : I. TTHE METHOD OF INTERSTITIAL SPREAD OF VITAL DYES.

McMaster P, Parsons R J Exp Med. 2009; 69(2):247-64.

PMID: 19870845 PMC: 2133740. DOI: 10.1084/jem.69.2.247.

References

Rous P, GILDING H . STUDIES OF TISSUE MAINTENANCE : I. THE CHANGES WITH DIMINISHED BLOOD BULK. J Exp Med. 2009; 50(2):189-211. PMC: 2131617. DOI: 10.1084/jem.50.2.189. View

Rous P, Larimore L . RELATION OF THE PORTAL BLOOD TO LIVER MAINTENANCE : A DEMONSTRATION OF LIVER ATROPHY CONDITIONAL ON COMPENSATION. J Exp Med. 2009; 31(5):609-32. PMC: 2128242. DOI: 10.1084/jem.31.5.609. View

Rous P, DRURY D . OUTLYING ACIDOSIS DUE TO FUNCTIONAL ISCHEMIA. J Exp Med. 2009; 49(3):435-60. PMC: 2131553. DOI: 10.1084/jem.49.3.435. View

Rous P, McMaster P . THE LIVER REQUIREMENT OF THE FASTING ORGANISM. J Exp Med. 2009; 39(3):425-46. PMC: 2128476. DOI: 10.1084/jem.39.3.425. View

GILDING H . STUDIES OF TISSUE MAINTENANCE : II. THE SERVICE TO THE LIVER AND DIGESTIVE TRACT AFTER HEMORRHAGE. J Exp Med. 2009; 50(2):213-26. PMC: 2131620. DOI: 10.1084/jem.50.2.213. View