Effect of Elevated Interstitial Pressure on the Renal Cortical Hemodynamics

Abstract

The influence of renal interstitial pressure on the resistance pattern within the superficial cortical vasculature has been investigated from determinations of I) the glomerular blood flow with a modified microsphere technique and 2) the intravascular hydrostatic pressures.Interstitial pressure was monitored via a 50 μm PVC‐catheter placed into the subcapsular interstitial space. Two conditions were analyzed viz. a) elevation of iiretheral pressure to 20 mm Hg and b) venous stasis to 10–15 mm Hg. Both conditions produced an increase in the interstitial pressure from 1–2 mm Hg to about 5 mm Hg as well as an increased hilar lymph flow and protein flow of about the Same size. The vascular reactions were different, however. Urethcral stasis (but not the stasis of a single nephron) produced a decreased resistance in the afferent arteriolae with a concomitant increase in the pressures in the glomerular capillaries, and the peritubular capillary network. In contrast, venous stasis produced only small changes in the parameters studied but for the obvious rise in the peritubular capillary pressure.The results suggest that factors other than the interstitial pressure are governing the afferent vascular tone; the tubular wall tension might he one of these factors.