Abstract

Sieving coefficients of uncharged dextrans of graded size (radii 30 to 60 A) were used to characterize barrier size-selectivity in nonazotemic diabetic humans with microalbuminuria (Group 1, N = 11) or macroalbuminuria (Group 2, N = 21). Compared to a non-diabetic control group (N = 21) the low radius end of the sieving profile was depressed, whereas the high radius end was elevated in each diabetic group, more so in Group 2 than Group 1. A heteroporous membrane model revealed the major portion of the glomerular barrier to be perforated by restrictive pores of approximately 56 A radius in all three groups. However, in keeping with a parallel trend for GFR, the relative density of restrictive pores was control greater than Group 1 greater than Group 2. The remaining minor portion of the barrier was perforated by large, shunt-like pores, the relative prominence of which ranked Group 2 greater than Group 1 greater than control. Although the hypothetical, fractional clearance of macromolecules attributable to the shunt-like pores varied directly with fractional clearances of albumin and IgG, the progressive increment in the latter fractional protein clearances in the two diabetic groups was disproportionate. This raises the possibility that factors in addition to barrier size defects contribute to the development, magnitude and composition of proteinuria early in the course of diabetic glomerular disease.(ABSTRACT TRUNCATED AT 250 WORDS)

View details for Web of Science ID A1992HM53500019

View details for PubMedID 1381005