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)

Human urine and plasma extracts contain a material that inhibits the enzyme Na+,K(+)-ATPase (the endogenous sodium pump) and produces natriuresis in the bioassay animal. This endogenous sodium pump inhibitor(s), also known as digitalis-like factor, is thought to be involved in sodium and extracellular fluid volume homeostasis. Increased urine and plasma sodium pump inhibiting activity have been reported in patients with cirrhosis and sodium retention. The aim of the study was to assess the renal response to i.v. administration (0.2 ml/min per kg bw for 10 min) of a human urine extract containing sodium pump inhibiting activity (28.5 nmol equivalent ouabain/ml) in eight conscious rats with cirrhosis and ascites and eight control rats. Baseline urinary excretion of Na+,K(+)-ATPase inhibiting activity was significantly higher in cirrhotic rats with ascites than in control rats (235 +/- 40 vs 91 +/- 16; p < 0.01). Human urine extract induced a significant (p < 0.05) increase in glomerular filtration rate in control (3.2 +/- 0.4 to 4.2 +/- 0.5 ml/min) and cirrhotic rats (3.0 +/- 0.3 to 4.0 +/- 0.5 ml/min). In control rats it also increased urinary sodium excretion (1.47 +/- 0.22 to 2.43 +/- 0.5 microEq/min, p < 0.01) and fractional sodium excretion (0.29 +/- 0.01 to 0.43 +/- 0.04%, p < 0.025). In contrast, in cirrhotic rats with ascites neither sodium excretion nor fractional sodium excretion was significantly affected. No changes were observed in plasma aldosterone and atrial natriuretic peptide concentrations in either group. These data suggest that in cirrhosis there is a renal resistance to the natriuretic effect of endogenous sodium pump inhibitor(s).
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PMID:Blunted natriuretic response to human urine extracts with Na+,K(+)-ATPase inhibiting activity in experimental cirrhosis. 807 45

The common disorders of fluid, electrolyte and acid-base metabolism observed in patients with liver cirrhosis are hyponatremia, hypokalemia, respiratory alkalosis, and metabolic acidosis, in addition to an excess accumulation of body fluids with edema and ascites formation. It has been suggested that an impaired renal sodium excretion in liver cirrhosis is caused by rather an increase in tubular sodium reabsorption than a decrease in glomerular filtration rate. In order to explain the pathophysiological mechanisms involved in initiating and maintaining sodium retention in cirrhosis, three hypotheses, namely, the "underfilling" hypothesis, the "overflow" hypothesis, and the "pepipheral arterial vasodilation" hypothesis have been proposed. However, neither of them could not fully account for the pathogenesis and pathophysiology of the avid renal sodium retention in cirrhosis. Although it is undoubted that the abnormal renal sodium handling in cirrhosis is mediated mainly by the sympathetic nervous system and the certain humoral agents such as renin-angiotensin-aldosterone system, atrial natriuretic peptide, prostaglandins, kallikein-kinin system, antidiuretic hormone and so on, the precise mechanism of the enhanced tubular sodium reapsorption induced via these factors is not well understood and still remains to be elucidated.
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PMID:[Fluid, electrolyte, and acid-base disorders in liver cirrhosis]. 811 81

Taurine is a non-protein sulfur amino acid widely distributed in mammalian tissues, with poorly understood functions. Taurine administration has a variety of hemodynamic effects, including improvement of cardiac function and suppression of sympathetic activity. Increased urinary volume and sodium excretion have been reported in taurine-fed hamsters. Since patients with ascitic liver cirrhosis have severe hemodynamic and renal abnormalities potentially sensitive to taurine feeding, we evaluated the effects of the i.v. infusion of taurine on urinary flow and sodium excretion and on the hormones involved in the control of hydrosaline homeostasis. Eight cirrhotic patients with tense ascites were given an i.v. bolus of taurine (16 mumoles in 40 ml of saline). The next day patients were given saline only, as a control. Diuresis, urinary sodium and plasma renin activity, aldosterone, atrial natriuretic peptide and arginine vasopressin were measured for the following 6 hrs. Plasma taurine increased ten fold after infusion, then decreased exponentially. No side effects were recorded. After taurine, but not after saline, there was a prompt and significant increase in both urinary volume and sodium excretion. Diuresis increased from 340 +/- 43 to 817 +/- 116 microliters/min (p < 0.01); urinary sodium from 13.8 +/- 3 to 26.3 +/- 4 mumoles/min (p < 0.05). Both values returned to normal after 2-3 hrs. Taurine infusion caused a concomitant significant decrease in plasma renin activity (from 7.7 +/- 2.2 to 4.3 +/- 1.9 ng/ml/hr, p < 0.05) and aldosterone (from 588 +/- 47 to 348 +/- 89 pg/ml, p < 0.05), but no changes in atrial natriuretic peptide and arginine vasopressin. We conclude that i.v. taurine infusion in ascitic cirrhosis promotes a transient diuresis and natriuresis, apparently through the inhibition of the renin-aldosterone axis.
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PMID:Taurine-induced diuresis and natriuresis in cirrhotic patients with ascites. 819 77

The role of atrial natriuretic peptide (ANP) and potential defects of ANP in liver disease are reviewed. Patients with cirrhosis of the liver show no decrease of ANP plasma concentrations nor changes in the pattern of ANP immunoreactivity nor changes of splanchnic ANP clearance. The renal effects of exogenously administered as well as endogenously released ANP are blunted in cirrhosis, in particular in patients with ascites. This seems due to increased activity of sodium-retaining hormonal systems and changes of the renal ANP receptor status. Pharmacological inhibition of ANP-degradation or clearance may yield therapeutic potential.
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PMID:The role of atrial natriuretic peptide (ANP) in chronic liver disease. 824 85

Plasma levels of endothelin (ET) were determined by radioimmunoassay in 11 healthy volunteers and 34 patients with liver cirrhosis. The results revealed that mean ET plasma level was significantly lower in 34 cirrhotic patients than in normal subjects (40.21 +/- 4.38 ng/L vs 84.55 +/- 7.88 ng/L, P < 0.01). Plasma ET was 32.17 +/- 3.98 ng/L in 23 cirrhosis patients with ascites compared with 57.0 +/- 9.0 ng/L in patients without ascites (P < 0.01). Moreover, it is apparent that plasma levels of ET decreased with the increase of ascites volume, and increased after the disappearance of ascites. But plasma levels of atrial natriuretic peptide (ANP) in cirrhotic patients were markedly higher than those in the controls (830.12 +/- 72.18 ng/L vs 439.45 +/- 50.18 ng/L, P < 0.01). In patients with ascites, ET plasma levels were inversely correlated to ANP. The results suggest that deficiency of circulating ET might be one of the important factors involved in sodium and water retention in cirrhosis.
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PMID:Plasma endothelin levels in cirrhotic patients and their correlation with atrial natriuretic peptide. 828 96

The nature of sodium retention in cirrhosis complicated by ascites has been studied for the last 30 years. Resistance to the natriuretic action of atrial natriuretic peptide (ANP) may play a potential role in this sodium retention. To further evaluate this possibility, we studied 12 patients with biopsy-proven cirrhosis and ascites on 2 consecutive days after a 7-day period off diuretics while receiving a 20 mmol/day sodium restricted diet. Following a crossover design, patients underwent head-out water immersion (HWI) for 3 h and were infused with a alpha-human ANP for 2 h on 2 consecutive days. Blood and urine samples were collected hourly. Five patients displayed a natriuretic response to HWI, sufficient to achieve negative sodium balance, and these patients were termed responders. Each of these five patients also displayed a natriuretic response to ANP infusion. In contrast, the other seven patients (nonresponders) consistently failed to develop a natriuretic response to either maneuver. The two groups had similar elevations in plasma ANP concentrations, but at baseline differed in terms of plasma sodium, plasma renin activity, and serum aldosterone. Despite higher serum aldosterone concentrations, nonresponders excreted less potassium than responders during the peak effect of the interventions, suggesting greater sodium delivery to the aldosterone-sensitive nephron segment in responders. We conclude that the inability to mount an adequate sodium excretory response to HWI in patients with cirrhosis may be conveyed through increased antinatriuretic factors that decrease the sodium delivery to the medullary collecting duct and inhibit the natriuretic effect of ANP at that site.
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PMID:Assessment of atrial natriuretic peptide resistance in cirrhosis with head-out water immersion and atrial natriuretic peptide infusion. 831 39

Compared to healthy humans in most patients with cirrhosis and renal sodium and water retention, effects of atrial natriuretic peptide (ANP) on sodium and water excretion are reduced. It has been postulated that this impaired response to ANP is caused by renal vasoconstriction, induced by high levels of angiotensin II. To further investigate this issue, we studied renal hemodynamics (glomerular filtration rate, GFR, single nephron GFR, SNGFR, renal blood flow, RBF) and urinary sodium excretion (UNaV) in rats with CCl4-induced cirrhosis of the liver, before and during ANP infusion. The same parameters were determined in cirrhotic rats after a 4-day pretreatment with the angiotensin-converting enzyme (ACE) inhibitor captopril before and during ANP. Results were compared to those obtained in 2 control groups of healthy rats, one of them pretreated with captopril. Rats with cirrhosis had a significantly reduced GFR, SNGFR, RBF, UNaV and an elevated plasma renin activity compared to healthy controls. ANP caused a significant rise in UNaV (+198%) but no significant change of GFR, SNGFR and RBF in cirrhotic rats. Captopril-pretreated rats with cirrhosis had a significantly higher RBF (+26%) and 24-hour urinary sodium excretion (+52%) but no significant differences in GFR and SNGFR compared to cirrhotic rats without captopril pretreatment. Administration of ANP to cirrhotic rats pretreated with captopril resulted in a significant rise in GFR (+56%), SNGFR (+42%), RBF (+29%) and UNaV (+159%) compared to cirrhotic rats with ANP alone. In healthy rats, there was no additional effect of a combined therapy with captopril and ANP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal effects of atrial natriuretic peptide in cirrhotic rats with and without captopril pretreatment. 832 62

In order to assess the role, if any, of atrial natriuretic peptide (ANP) and hemodynamic changes in diuretic response to concentrated ascitic fluid reinfusion (CAFR) in cirrhotic patients, we studied 10 patients with liver cirrhosis before and after aspiration, concentration and intravenous reinfusion of their ascitic fluid. Basal ANP levels were higher than in normal subjects, but not related to the degree of water and sodium excretion. CAFR induced a variable degree of ANP changes and diuretic response, and these two parameters were strictly correlated to each other. No major changes of cardiac output and systemic vascular resistances were observed after CAFR. In conclusion, the apparent resistance to ANP diuretic action observed in basal condition in cirrhotic patients seems to revert after expanding blood volume by CAFR.
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PMID:Atrial natriuretic peptide and hemodynamic changes after concentrated ascitic fluid reinfusion in cirrhotic patients. 841 94

Brain natriuretic peptide (BNP) is a cardiac hormone with a spectrum of activities quite similar to those of atrial natriuretic peptide (ANP), including diuretic, natriuretic, hypotensive and smooth muscle relaxant activities. These effects are due to the stimulation of guanylate cyclase-linked natriuretic peptide receptors, leading to an increase in cyclic GMP concentration in target cells. BNP has a lower affinity than ANP for C (clearance) receptors, and is less susceptible to degradation by neutral endopeptidase-24.11, resulting in a longer half-life. In the kidney, BNP increases the glomerular filtration rate and inhibits sodium reabsorption in the distal tubule. It also inhibits the release of renin and aldosterone. Unlike ANP, produced by the atria, BNP is mainly synthesized and released into circulation by the left ventricle and is therefore influenced by stimuli involving this cardiac chamber, such as an increase in arterial pressure, left ventricular hypertrophy and dilation. Plasma BNP levels are very low in healthy subjects, and respond modestly, although significantly to physiological stimuli such as changes in posture or sodium intake. In contrast, plasma BNP concentrations increase in disease states such as cirrhosis with ascites, hypertension, chronic renal failure, acute myocardial infarction and congestive heart failure. In the latter condition, plasma BNP concentration is a reliable prognostic index. Evidence obtained by administering BNP to healthy subjects and hypertensive patients suggests that BNP, at physiological and pathophysiological plasma concentrations, markedly influences cardiovascular homeostasis, mainly due to its effects on sodium excretion and the renin-aldosterone axis.
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PMID:[Brain natriuretic peptide]. 871 58

The natriuretic effect of atrial natriuretic peptide (ANP) is blunted in certain clinical disorders such as congestive heart failure and liver cirrhosis, despite the elevated plasma ANP levels. These sodium-retaining states are characterized by increased activity of the renal sympathetic nerves. Recent studies have shown higher levels of circulating and urinary catecholamines in cancer patients. We hypothesized that the increased adrenergic activity may be responsible for ascites formation in patients with peritonitis carcinomatosa (PC). The objective of this study was to determine the renal responses to endogenous ANP in patients with PC. Patients, hospitalized at our institute for PC, were examined using renal clearance studies for 2 h. Non-cancer patients were also examined as control subjects. Statistical analysis was performed using Wilcoxon's rank sum test. The results showed that absolute and fractional sodium excretions were markedly lower in patients with PC (54 +/- 16 microEq/min, means +/- SE, p < 0.0005; 0.55 +/- 0.15%, p < 0.005) than in control patients (166 +/- 14 microEql/min; 1.14 +/- 0.09%, respectively). Plasma ANP concentration was increased in patients with PC (34.7 +/- 8.4 pg/ml, p < 0.001) in comparison with control patients (13.3 +/- 2.0 pg/ml). Plasma and urinary levels of norepinephrine were significantly higher in cancer patients (0.36 +/- 0.10 ng/ml, p < 0.05; 125 +/- 20 ng/dl GF, p < 0.05) than in the controls (0.17 +/- 0.02 ng/ml; 73 +/- 13 ng/dl GF). These results suggest that increased renal sympathetic nerve activity may contribute to the attenuation of the natriuretic effect of ANP in patients with PC.
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PMID:Resistance to natriuresis in patients with peritonitis carcinomatosa. 874 Jan 93


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