Zur Frage der Existenz eines “Gradient of Vascular Permeability” an der Endstrombahn

Surgical exposure induces formation of an arteriovenous permeability gradient for macromolecules in the microcirculation of muscle

Rous and his colleagues (P. Rous, H. P. Gilding, and F. Smith, 1930, J. Exp. Med. 51, 807-830, F. Smith and P. Rous, 1931, J. Exp. Med. 53, 195-217) uncovered evidence for an arteriovenous gradient of permeability in exchange vessels of muscle. After injecting vital dyes intravenously in laboratory animals, including mice and rats, they examined escape of the dyes from exchange vessels of abdominal muscles, prepared for observation by reflection of the overlying skin. They noted that a particular class of dyes, termed "poorly diffusible," escapes from venules but not from arterioles and capillaries a few minutes after injection. We now assume that the "poor" diffusibility of the dyes stems from their binding to plasma proteins. We repeated similar experiments in mice and rats, using Evans blue as tracer, and also observed leakage of Evans blue from venules but not from other exchange vessels. We made three additional observations. (1) Evans blue leaks from venules only after the skin overlying the abdominal muscles is reflected. (2) Reflection of the skin initiates degranulation of mast cells in the muscles. (3) Leakage of Evans blue from venules is inhibited by administration of promethazine, a histamine and serotonin antagonist, to the animals prior to reflection of the skin. On the basis of our observations, we conclude that the arteriovenous permeability gradient for poorly diffusible dyes in the microcirculation of muscle represents response to tissue injury resulting from reflection of overlying skin.

Studies on the "vascular labeling" phenomenon in the iris and the ciliary body of the rat after intravenous injection of colloidal carbon

The occurrence of carbon deposits after intravenous injection of colloidal carbon (vascular labeling phenomenon) in the iris and the ciliary body of the rat eye was studied by vital microscopy, unstained perfused mount preparations, and by electron microscopy. Generally in the untouched eye the vascular labeling phenomenon is either absent or appears only in the form of finest granular deposits in some capillaries and venules of the iris and the ciliary body. A decrease of intraocular pressure by paracentesis causes a certain blackening phenomenon, which prefers the capillaries and the venules of the iris and the capillaries in the ciliary processes. This effect is intensified by a further decrease of the intraocular pressure to -30 mm Hg. Predominantly the deposits are found stronger in the ciliary region than in the iris. Increase of the intraocular pressure of up to 30 mm Hg diminishes the blackening phenomenon. After administration of the vasodilator bencyclane into the anterior chamber the vascular labeling phenomenon shows a clear graduation of carbon affinity depending upon the concentration of the drug: The capillaries and venules are exclusively blackened at low concentrations, additionally the collecting venules and arterioles are influenced at medium and high doses. By electron microscopy an intraluminal as well as an intramural (subendothelial) deposition of carbon, partly accompanied with signs of hemoconcentration, can be seen. Extravascular position of carbon material is seldom observed and restricted to a state of abnormally high vascular permeability. The observations give evidence for a 'gradient of permeability' between the different types of vessels of the terminal anterior uveal vascular system and also permit the assumption that the vessels of the ciliary processes are more permeable than those of the iris.