Heavy proteinuria is a major determinant of progression to ESRD for patients with chronic nephropathies and reducing proteinuria should be a key target for renoprotective therapy. In the Remission Clinic, we applied a multimodal intervention to target urinary proteins in 56 consecutive patients who had Ͼ3 g proteinuria/d despite angiotensin-converting enzyme inhibitor therapy. We compared the rate of GFR decline and incidence of ESRD in this cohort with 56 matched historical reference subjects who had received conventional therapy titrated to a target BP. During a median follow-up of 4 yr, the monthly rate of GFR decline was significantly lower in the Remission Clinic cohort (median Ϫ0.17 versus Ϫ0.56 ml/min per 1.73 m 2 ; P Ͻ 0.0001), and ESRD events were significantly reduced (3.6 versus 30.4% reached ESRD). Follow-up BP, cholesterol, and proteinuria were lower in Remission Clinic patients than in reference subjects, such that disease remission or regression was achieved in up to 50% of patients who would have been otherwise expected to progress rapidly to ESRD on conventional therapy. Proteinuria reduction independently predicted a slower rate of GFR decline and ESRD incidence, but response to treatment differed depending on the underlying disease. Regarding safety, no patient was withdrawn because of hyperkalemia. In summary, multidrug treatment titrated to urinary protein level can be safely and effectively applied to normalize proteinuria and to slow the loss of renal function significantly, especially among patients without type 2 diabetes and with otherwise rapidly progressing chronic nephropathies.
At comparable blood pressure, combined ACEi and ARA decreased proteinuria better than ACEi and ARA. The greater antiproteinuric effect most likely depended on an ACEi-related hemodynamic effect, in addition to glomerular size selectivity amelioration. Long-term combined ACEi and ARA therapy may be more renoprotective than treatment with each agent alone.
Clearances of uncharged dextrans of broad size distribution were used to evaluate the effects of a 30 day course of enalapril on glomerular barrier function in 10 patients with IgA nephropathy and proteinuria (from 1.4 to 5.6 g/day). Dextran clearance experiments were repeated three times: before enalapril therapy, after 30 days of enalapril and again 30 days after enalapril withdrawal. GFR, but not RPF, was significantly reduced by enalapril (basal 38.3 +/- 11.9, enalapril 30.2 +/- 12.6 ml/min/1.73 m2) and returned to basal values after enalapril withdrawal. Urinary protein excretion and fractional clearance of albumin were both significantly reduced by enalapril (basal 2.3 +/- 1.1 g/day and 102 +/- 90 x 10(-5), enalapril 1.2 +/- 0.6 g/day and 51 +/- 23 x 10(-5), respectively) and returned to basal values after enalapril withdrawal. Transglomerular passage of large dextrans (radii 54 to 62 A), but not of lower size (26 to 42 A) were significantly lowered by enalapril. When enalapril was withdrawn the dextran-sieving profile returned comparable to the baseline levels. A theoretical analysis of dextran-sieving profiles indicated that enalapril lowered the radius of largest membrane pores. This effect was independent from glomerular hemodynamic changes. We conclude that angiotensin converting enzyme inhibitors (CEI) in humans with IgA nephropathy reduces urinary protein excretion by a primary action on the intrinsic glomerular membrane properties enhancing barrier size-selective function. The hypofiltration associated with enalapril therapy in these patients, which was eliminated by its withdrawal, has to be taken into account as a possible undesired effect of CEI in long-term treatment.
Platelet adhesion-aggregation reactions play an early and pivotal role in the pathogenesis of systemic sclerosis in scleroderma, but the mechanisms are incompletely understood. We determined whether or not plasma from 11 consecutive patients with scleroderma contained a subset of larger than normal (“supranormal”) multimers of von Willebrand factor (vWF) that are potent inducers of platelet aggregation and adhesion. Supranormal multimers were found in all patients on at least one of two different occasions 9 to 12 months apart, whatever the duration and severity of the disease, but in none of the normal controls. Administration of low-dose aspirin (40 mg) to five of the 11 patients for ten days to inhibit the platelet release reaction slightly reduced the amounts of supranormal multimers suggesting that they might originate in part from platelets. Supranormal multimers may contribute to the pathogenesis of systemic sclerosis by inducing platelet aggregation and enhancing adhesion to subendothelium under the conditions of elevated shear stress occurring in the partially occluded vessels of the arterial microcirculation of scleroderma.
To examine whether systemic acidemia is the cause of the adaptive increase in renal brush-border membrane (BBM) Na+-H+ exchange activity seen in metabolic acidosis, we examined the time course of changes in Na+-H+ exchange activity in rats with chronic metabolic or respiratory acidosis. Metabolic acidosis was created by allowing rats free access to a 1.5% NH4Cl drinking solution. Respiratory acidosis was created by housing rats in a chamber designed to maintain ambient PCO2 levels at 10%. All rats were fed normal rat chow. Control and respiratory acidosis rats had free access to tap water. Rats from each group were studied 1, 3, 5, 7, and 14 days after onset of treatment. Na+-H+ exchange activity was examined in renal BBM vesicles using acridine orange. In both metabolic acidosis and respiratory acidosis, arterial blood [H+] increased markedly at day 1 and returned toward normal thereafter; at day 14, [H+] was elevated to a comparable degree in both groups. In metabolic acidosis, Na+-H+ exchange activity remained at control levels for 3 days but increased markedly thereafter. In contrast, in respiratory acidosis no adaptive increase in activity occurred at any time. Because no correlation was found between blood [H+] and renal BBM Na+-H+ exchange activity, we conclude that stimuli other than systemic acidemia are responsible for the adaptation seen in chronic metabolic acidosis.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.