Simultaneous measurements of capillary diffusion and filtration exchange during shifts in filtration‐absorption and at graded alterations in the capillary permeability surface area product (PS)

Abstract

The diffusion exchange of Cr‐EDTA, using the single injection indicator diffusion method, was followed simultaneously with estimations of the capillary filtration capacity (CFC) in an “isogravimetric” rat hindquarter preparation during artificial perfusion and maximal dilatation. Measurements were performed at constant flow and during 1) shifts in filtration‐absorbtion, 2) alterations of perfused capillary wall area (graded rarification of capillary network by microsphere injection) and 3) during alterations of permeability (i.a. infusion of histamine). At maximal vasodilatation CFC was 0.037 ± 0.001 ml/min × mmHg × 100 g and PS for Cr‐EDTA 5.67 ± 0.13 ml/min × 100 g. During filtration or absorbtion, Cr‐EDTA transfer from vessels to interstitium changed only slightly but the situation may well be different for solute transfer from interstitium to vessels. Alterations in capillary wall area resulted in proportional changes in PS for Cr‐EDTA while the CFC changes were always relatively smaller. Histamine increased CFC some threefold with a marked increase in protein transfer, while PS for Cr‐EDTA increased only marginally. This hista mine effect could be ascribed mainly to an increase in the number of large pores which, because of their relative paucity, are of little importance for small molecular diffusion exchange but highly important for convective and macromolecular exchange.