Increased permeability of the capillaries of the rat heart to the plasma albumin with asphyxiation and with perfusion

Abstract

Studies on the rate of efflux from the isolated perfused rat heart of plasma albumin conjugated with Evans Blue showed the conjugate to have penetrated extensively the extravascular compartment of the organ during a period of 2 min. This was confirmed by direct analysis of hearts for vans Blue after perfusion. Exposure of the hearts to Evans Blue-albumin conjugate for 8 min. in vivo showed no significant penetration of the interstitial space. With the isolated preparation inclusion of promethazine in the perfusing medium significantly diminished the rate of penetration of the extravascular compartment by the conjugate as did injection of the animals with either reserpine 2 days before, or bretylium immediately before the experiment. Penetration of the interstitial compartment in vivo could be induced by repeated asphyxiation. This penetration could also be diminished by promethazine but was not influenced by mepyramine maleate. The increased permeability of capillaries to plasma proteins can be readily demonstrated in the whole animal by detecting the leakage from the vasculature of the plasma proteins conjugated with a dye. Evans Blue, which has been widely used as a vascular marker because of the stability of its conjugate with plasma albumin, is the most suitable dye for this purpose. In the present work this method has been applied to the isolated rat heart, to determine if changes in capillary permeability occur in the perfused tissue. When plasma albumin conjugated with Evans Blue was used as a vascular marker in this preparation, its rate of clearance was very much less than that of erythrocytes, and the amount contained in the heart corresponded to a space approaching that occupied by extracellular markers such as raffinose and insulin. It was concluded, therefore, that there was a failure of a considerable number of the cardiac capillaries to retain the plasma albumin, and subsequent work was directed towards the identification of the condition that gives rise to these changes and the possible involvement of a permeability factor.