Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As a result of effective beta adrenergic blockade with either propranolol or practolol, plasma renin activity was suppressed in all of 11 patients with cirrhosis and ascites. In contrast, the effect on the rate of renal excretion of aldosterone was variable, suggesting that factors other than the renin-angiotension system are responsible for the control of aldosterone secretion in cirrhosis. The changes in aldosterone could not be explained on the basis of changes in the plasma concentrations of potassium or sodium. The renal sodium excretion was inversely related to the values for aldosterone both before and after beta adrenergic blockade, indicating a major role for aldosterone in regulating sodium excretion. A number of patients had an abnormal intrarenal distribution of plasma flow with a relative hypoperfusion of the renin-secreting outer cortical nephrons. Plasma renin activity was inversely related to outer cortical plasma flow, suggesting that the reduced outer cortical flow may be a stimulus to increased renin secretion. Because the abnormal intrarenal hemodynamic pattern was not corrected by suppression of plasma renin activity, and presumably angiotension II concentrations, it is unlikely that it is attributable to the known renal vasonconstrictor effects of angiotensin II.
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PMID:Effect of beta adrenergic blocking drugs on the renin-aldosterone system, sodium excretion, and renal hemodynamics in cirrhosis with ascites. 1 38

In 4 patients with cirrhosis and ascites, diuretic therapy resulted in an impairment of renal function that was associated with a rise in plasma renin activity (PRA). In 3, this occurred in the absence of volume depletion. When diuretics were discontinued, renal function returned to normal. beta-adrenergic blocking drugs were then given to suppress renin secretion and diuretics restarted. On this occasion, impairment of renal function did not occur. In 2 further patients, administration of beta-adrenergic blockers during a period of diuretic-induced renal impairment resulted in an improvement in renal function. Although these findings may indicate that diuretic-induced renal impairment in cirrhosis is at least partly due to activation of the renin-angiotensin system, in another group of patients a diuretic-induced rise in PRA was not associated with a deterioration in renal function.
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PMID:Diuretic-induced renal impairment without volume depletion in cirrhosis: changes in the renin-angiotensin system and the effect of beta-adrenergic blockade. 4 11

The concept of the "inappropriate" has a well-defined and easily comprehended meaning when applied to tumour secretion of antidiuretic hormone (A.D.H., vasopressin). When applied to high A.D.H. in other situations such as nephrotic syndrome, congestive cardiac failure, or cirrhosis, the use of the term "inappropriate secretion" simply reflects the fact that an easily measured controlling factor (plasma tonicity) is being overridden by a less easily measured one (effective extracellular volume). Similarly, sodium excretion in hypertension is said to be inappropriately low for the raised renal perfusion pressure: in this case inappropriateness results from the antinatriuretic effect of a minor degree of sodium depletion produced by pressure natriuresis. A similar objection can be made to the application of the term to the relations between renin or angiotensin-II concentrations and blood-pressure in some forms of hypertension. Since inappropriateness merely reflects the position and predilections of the observer, the widespread use of the term should be abandoned.
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PMID:On the inappropriate in hypertension research. 7 8

Oestrogen stimulation of plasma renin substrate (PRS) was studied in men with alcoholic cirrhosis. PRS values, before and 1, 2, 4 and 6 days after a single oral administration of 100 microgram of an oestrogen derivative, 11beta-methoxy-17-ethynyl-1,3,5(10)-estratriene-3,17beta-diol (Moxestrol), were measured by radioimmunoassay of generated angiotensin I in five men with normal liver function and five men with alcoholic cirrhosis. Basal PRS was 0.93 +/- 0.22 nmol/ml (mean +/- 1 SD) in the normal men and significantly lower (P less than 0.01) in the men with cirrhosis (0.33 +/- 0.14 nmol/ml). Two days after administration of Moxestrol, PRS rose significantly but transiently (P less than 0.05) to 1.41 +/- 0.42 nmol/ml in the normal men and to 0.47 +/- 0.15 in the cirrhotic men, the relative increase (approximately 50%) being similar in both groups. A study of the plasma kinetics and urinary excretion of Moxestrol was also performed to evaluate its metabolic clearance rate and absorption. Since the intestinal absorption of [14C] Moxestrol was not depressed in cirrhotic men, the low PRS values recorded are probably the consequence of hepatocyte dysfunction.
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PMID:Plasma renin substrate sensitivity to oestrogens and oestrogen metabolism in cirrhosis. 10 Mar 29

The interrelationships between the renin-angiotensin-aldosterone system, renal haemodynamics and urinary sodium excretion were investigated in fifty-six non-azotaemic cirrhotics with ascites. In twelve additional patients the renal renin secretion rate was also studied. Plasma renin activity and concentration and plasma aldosterone ranged from normal to very high values. There was a significant inverse relationship between plasma aldosterone and the urinary sodium excretion. Plasma aldosterone showed a highly significant direct correlation with plasma renin activity, and plasma renin concentration was closely and directly related to the estimated renin secretion rate. Neither plasma renin activity, plasma renin concnetration nor the estimated renin secretion rate correlated with the renal plasma flow or the glomerular filtration rate. These results suggest that in non-azotaemic cirrhosis with ascites the renin-angiotensin-aldosterone system is an important factor influencing sodium excretion, increased plasma renin and aldosterone concentrations are mainly due to an increased secretion rate, and total renal perfusion is not a major factor influencing renin secretion.
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PMID:Renin, aldosterone and renal haemodynamics in cirrhosis with ascites. 11 Jun 3

The generally held views that plasma renin activity (PRA) is increased in cirrhosis and that this is secondary to reductions in the "effective" blood or extracellular fluid (ECF) volumes, consequent on the effects of portal hypertension, were re-examined in the present study. Measurements of PRA in 67 patients representing different clinical stages of cirrhosis showed that the mean value in 15 patients without ascites was significantly reduced. In 21 of 35 with ascites, PRA was either reduced or within the normal range. A low plasma renin substrate concentration was not the cause for the low PRA. These findings are not in keeping with the concepts of reduced "effective" blood or ECF volumes at least for the majority of patients at these stages of cirrhosis under the conditions of the present study. The only group showing a significantly increased PRA had evidence of renal impairment. In these 17 patients the underlying reduction in renal perfusion may have been the stimulus to the kidney that led to an increase to renin secretion.
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PMID:Changes in plasma renin activity in cirrhosis: a reappraisal based on studies in 67 patients and "low-renin" cirrhosis. 39 38

Renal hemodynamics and the renin-angiotensin-aldosterone system were investigated in 15 cirrhotic patients without renal failure on controlled sodium intake of 140-160 mEq/day and related to the degree of sodium retention as measured by urinary sodium excretion. Fourteen patients were free of clinical ascites when studied. The distribution of renal blood flow was measured by the noninvasive technique of computerized radioisotope renography. In 11 patients, outer cortical renal plasma flow, expressed as a percentage of total effective renal plasma flow, was directly proportional to sodium excretion (P less than or equal to 0.01). Three patients with severe sodium retention (UNa.V less than or equal to 10 mEq) had estimated outer cortical renal plasma flows of less than or equal to 274 ml/min/1.73 M2 as compared to eight cirrhotics with better (UNa.V greater than or equal to 50 mEq) sodium tolerance (mean = 438 ml/min/1.73 M2). A significant inverse correlation (P less than or equal to 0.01) existed between outer renal cortical blood flow and plasma renin activity. No significant relationship was observed between glomerular filtration rate, total effective renal plasma flow, plasma aldosterone concentration and sodium excretion. These results provide further evidence that a renal vascular abnormality exists in cirrhosis, and that diminished outer cortical renal perfusion is related to the elevated renin levels and sodium intolerance observed in cirrhotic patients.
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PMID:Renal hemodynamics and the renin--angiotensin system in cirrhosis: relationship to sodium retention. 42 87

Renal function is known to be abnormal in patients with cirrhosis. Diminished cortical blood flow due to active renal vasoconstriction is present. Renal prostaglandins, potent vasodilators, could be released by the kidney in an attempt to maintain renal blood flow. This possibility was investigated by measuring the effect of indomethacin, an inhibitor of prostaglandin synthetase, in patients with alcoholic liver disease. Administration of indomethacin reduced the effective renal plasma flow (ERPF) and creatinine clearance by 23% and 19%, respectively (P less than 0.001), and increased serum creatinine by 29% (P less than 0.001). The response to indomethacin was variable (fall in ERPF (+)7.8% to (-)67%), but was greatest in patients with ascites. Eighty percent of ascitic patients had a greater than 15% fall in ERPF after administration of indomethacin compared with 20% of nonascitic patients (P less than 0.025). An infusion of prostaglandin A1 in 13 patients corrected the decrease in ERPF and creatinine clearance that had followed the administration of indomethacin. The administration of indomethacin caused a significant fall in plasma renin activity, 8.2 +/- 2.5 to 3.6 +/- 1.4 ng/ml/hr (P less than 0.025). The fall in plasma renin activity occurred when ERPF was depressed maximally, suggesting that endogenous prostaglandins exert more control over renin release than does ERPF. Prostaglandins appear to be an important factor in maintaining renal blood flow in patients with cirrhosis and sodium retention.
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PMID:Effect of indomethacin and prostaglandin A1 on renal function and plasma renin activity in alcoholic liver disease. 44 34

[1-Sarcosine, 8-Isoleucine] angiotensin II was given to 8 patients with cirrhosis and ascites and 7 cirrhotic patients without ascites on a regular diet. The 3 ascitic patients with high plasma renin activity (PRA) gave a depressor response, but the other ascite patients with normal or low PRA gave a pressor response or no response. All the non-ascitic patients gave a pressor response. There was an inverse correlation between the PRA before infusion and the change in blood pressure induced by this compound. In the patient with the highest PRA, who had ascites of a few days' duration, a marked reduction in blood pressure was observed on infusion of this compound. These results suggest that the renin-angiotensin system might be involved in maintenance of a normal blood pressure in some patients with cirrhosis and ascites, whose ascites is presumably in an early stage.
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PMID:Blood pressure response to [1-sarcosine, 8-isoleucine] angiotensin II in patients with liver cirrhosis and ascites. 44 13

Sodium and water retention is constant in decompensated cirrhosis with ascites and edema. Sodium retention is due to several factors. Renal hemodynamic disturbances appear first: decrease in glomerular filtration and renal plasmatic perfusion, redistribution of renal perfusion to the juxtamedullar area where the longer nephrons reabsorb more sodium. Metabolic disorders of estrogens, natriuretic hormonal factor, prostaglandins and the kallikrein-kinin system contribute to greater sodium retention. Water retention is secondary to greater sodium reabsorption and to hyperactivity of the antidiuretic hormone. Sodium and water retention, associated with portal hypertension, with reduced oncotic pressure and with dynamic lymphatic insufficiency, is responsible for the production of ascites. The latter results in a decrease in the effective plasmatic volume, with non-suppression of the renin-angiotensin system, increased aldosterone production and additional sodium retention.
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PMID:[The physiopathology of ascites]. 46 62


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