angiotensinogen and Ascites

Decompensated liver cirrhosis is characterized by activation of the renin-angiotensin-aldosterone system (RAAS). We investigated whether compartmentalization of these components occurs in ascitic fluid.. In 26 patients with cirrhosis RAAS components and albumin were quantified in simultaneously obtained plasma and ascitic fluid samples. Renin degradation was determined in vitro in plasma and ascites.. Plasma angiotensinogen was below normal reference values in all but two patients and correlated inversely with plasma renin (r = -0.73, P < 0.001). Plasma renin activity was elevated in most subjects. The plasma and ascites concentrations of renin, prorenin, angiotensinogen and aldosterone were closely (P < 0.001) correlated. Expressed as a percentage of plasma levels, the angiotensinogen level (18 +/- 11%) was slightly lower than the albumin level (23 +/- 8%), whereas the aldosterone level (43 +/- 18%) was considerably higher (P < 0.0001). For renin and prorenin these percentages were much lower (P < 0.0001), despite the fact that their molecular weight is lower than that of albumin and angiotensinogen. This was not due to a more rapid degradation of renin in ascites fluid, since the in-vitro degradation rates of renin in plasma and ascitic fluid were identical.. In hepatic cirrhosis ascites can be regarded as an ultrafiltrate of plasma RAAS components. Since differences in molecular weight or metabolic rate cannot explain the low ascites-to-plasma ratio of renin and prorenin, either their transcapillary transport is impaired and/or they selectively bind to (pro)renin binding sites.

Topics: Aged; Aldosterone; Angiotensinogen; Angiotensins; Ascites; Ascitic Fluid; Female; Humans; Liver Cirrhosis; Male; Middle Aged; Plasma; Renin; Renin-Angiotensin System

Plasma renin activity (PRA), plasma renin concentration (PRC), angiotensinogen, angiotensin II (AT II) and plasma aldosterone were determined by radioimmunoassay in 77 patients with cirrhosis of the liver [group I: with ascites, untreated (n=23); group II: patients with ascites during treatment (n=32); group III: after removal of fluids, but under further spironolactone therapy (n=10); group IV: untreated subjects without ascites (n=12)]. With the exception of decreased angiotensinogen values in all groups ranging between 39% (group IV) and 73% (group III) no significant changes of the other parameters of the RAAS were found in untreated patients. A highly significant increase of PRA, PRC, AT II and plasma aldosterone was observed in treated cirrhotics with (group II) or without (group III) ascites. In the total series of patients AT II was closely related to PRA, PRC and aldosterone emphasizing aldosterone secretion. Plasma sodium was inversely correlated to PRA, PRC, AT II and aldosterone, but no relationship was detected between these parameters of the RAAS and plasma potassium. Our results indicate that hyperaldosteronism in cirrhosis appears unlikely to be the major determinant of avid renal sodium retention and ascites formation. An increased activity of the RAAS is most often initiated by therapeutic factors and/or markedly altered electrolyte metabolism. Therefore, basal conditions of the patients to be studied must be well defined to exclude any artificially induced stimulation of the RAAS.

Topics: Adult; Aged; Aldosterone; Angiotensin II; Angiotensinogen; Ascites; Diuretics; Humans; Liver Cirrhosis; Middle Aged; Renin

Twelve patients with cirrhosis, refractory ascites, and varying degrees of renal failure (creatinine clearance, 5 to 44 ml/min) were studied before and up to 2 weeks following peritoneovenous shunt. Creatinine clearance increased 60% or more in seven patients (group I) and 22% or less in five patients (group II). There were no significant differences in maximum urine output or sodium excretion between groups (group I, 4,272 ml/14 hr, 372 mEq/24 hr; group II, 3,722 ml/24 hr, 255 mEq/24 hr). Aldosterone and renin concentrations were higher in group I and showed a greater decrease after shunting. Renin substrate levels also were higher in group I and rose following shunt insertion, while group II remained low. Ascitic fluid was found to contain renin substrate in concentrations of approximately 25% to 50% of plasma concentrations. Patients with the greatest increase in creatinine clearance showed the largest rise in substrate concentration and fall in renin and aldosterone secretion, suggesting a dynamic relationship between these factors. That a diuresis could occur without significant change in these parameters in five of 12 patients suggests independent control mechanisms for renal salt and water excretion and glomerular filtration in the ascitic patient.

Topics: Aldosterone; Angiotensinogen; Ascites; Creatinine; Diuresis; Fatty Liver; Glomerular Filtration Rate; Kidney; Liver Cirrhosis, Alcoholic; Natriuresis; Peritoneum; Renin; Syndrome; Veins

Topics: Acute Kidney Injury; Aldosterone; Angiotensin II; Angiotensinogen; Ascites; Blood Pressure; Endopeptidases; Humans; Liver Diseases; Renin