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)

Plasma levels of brain natriuretic peptide, a recently identified cardiac hormone with natriuretic activity, were measured in 11 healthy subjects, 13 cirrhotic patients without ascites, 18 nonazotemic cirrhotic patients with ascites and 6 patients with cirrhosis, ascites and functional kidney failure. Plasma levels of brain natriuretic peptide were similar in healthy subjects and cirrhotic patients without ascites (5.56 +/- 0.65 and 7.66 +/- 0.68 fmol/ml, respectively). In contrast, cirrhotic patients with ascites, with and without functional kidney failure, had significantly higher plasma concentrations of brain natriuretic peptide (19.56 +/- 1.37 and 16.00 +/- 1.91 fmol/ml, respectively) than did healthy subjects and patients without ascites (p less than 0.01); no significant difference was found between the two groups of cirrhotic patients with ascites with respect to this parameter. In the whole group of cirrhotic patients included in the study, brain natriuretic peptide level was directly correlated with the degree of impairment of liver and kidney function, plasma renin activity and plasma levels of aldosterone and atrial natriuretic peptide. The results of this study indicate that brain natriuretic peptide is increased in cirrhotic patients with ascites and suggest that sodium retention in cirrhosis is not due to deficiency of this novel cardiac hormone.
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PMID:Plasma levels of brain natriuretic peptide in patients with cirrhosis. 161 67

Patients with cirrhosis and ascites have high plasma levels of atrial (ANP) and brain (BNP) natriuretic peptides, two cardiac hormones released by the atria and ventricles, respectively. We evaluated renal hemodynamics, sodium excretion, and intrarenal sodium handling (lithium clearance method) in seven cirrhotic patients with ascites and avid sodium retention before, during, and after the infusion of synthetic human BNP, at the dose of 4 pmol/kg.min for 1 hour, which has been shown to increase renal plasma flow, glomerular filtration rate (GFR), and sodium excretion in healthy subjects without affecting systemic hemodynamics. Plasma BNP levels were 7.31 +/- 0.85 pmol/L in baseline conditions, and increased to 33.60 +/- 2.96 pmol/L at the end of the infusion (P < .01 vs. baseline). Urinary excretion of guanosine 3',5'-cyclic monophosphate (cGMP) also significantly increased during the infusion, indicating stimulation of natriuretic peptide receptors by BNP. BNP administration did not modify renal plasma flow, GFR, sodium excretion or tubular sodium reabsorption to any appreciable extent. Arterial pressure heart rate, plasma norepinephrine, and plasma renin activity (PRA) where also unchanged, whereas plasma aldosterone concentration showed a significant, 35% reduction at the end of the postinfusion period, ruling out the possibility that BNP-induced vasodilation might be responsible for failure of the peptide to induce a natriuretic response. Overactivity of antinatriuretic factors is probably the main determinant of the blunted natriuretic effect of BNP in these patients.
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PMID:Blunted natriuretic response to low-dose brain natriuretic peptide infusion in nonazotemic cirrhotic patients with ascites and avid sodium retention. 748 83

The natriuretic peptide system, which comprises at least four related proteins: atrial natriuretic peptide; brain natriuretic peptide; C-type natriuretic peptide; and urodilatin, exerts important influences on central and renal hemodynamics and renal sodium excretion. Recent studies have examined the role of these peptides in the pathophysiology of edema formation in congestive heart failure, cirrhosis, and nephrotic syndrome and have explored the therapeutic value of manipulating their metabolic pathways. One striking feature appears common to all three states ie, a blunted response to the natriuretic effect of atrial natriuretic peptide, which becomes particularly severe in the late stages of each disease. However, whereas in congestive heart failure and cirrhosis the main mechanism responsible is enhanced proximal tubular reabsorption of sodium resulting in reduced distal sodium delivery to the major site of atrial natriuretic peptide action, in nephrotic syndrome a biochemical defect in the cellular response to atrial natriuretic peptide within the kidney is a more likely explanation. Most information regarding the efficacy of therapies that alter the metabolism or the local action of atrial natriuretic peptide pertain to congestive heart failure. However, continued investigation in this area may ultimately lead to interventions that play a valuable role in the future management of all three edematous states.
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PMID:Clinical relevance of the natriuretic peptides in edematous states. 785 28

The carotid bodies were dissected out at necropsy and weighed in seven subjects with cirrhosis of the liver and in seven control subjects of comparable age free of liver disease. The mean combined carotid body weight of the control group was 17 mg but in the cirrhotic patients it was 35 mg, a statistically significant difference (P < 0.005). Differential counts of the various types of glomic cell (progenitor, dark and light variants of chief cells and sustentacular cells) were carried out. The enlargement of the carotid bodies in the subjects with cirrhosis was associated with increased numbers of the dark variant of chief cell. The mean number of dark cells per unit area in the control group was 361 cells/mm2 but in the cirrhosis group it was 1024 cells/mm2, a statistically significant difference (P < 0.005). It is postulated that the prominence of dark cells may be associated with secretion of a natriuretic peptide in response to the hyperaldosteronism and sodium retention of cirrhosis of the liver. Alternatively, it may be a response to hypoxaemia resulting from porta-pulmonary shunts.
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PMID:Enlargement of the carotid bodies in cirrhosis of the liver. 798 78

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

Resistance to the natriuretic action of atrial natriuretic peptide (ANP) is a hallmark of states of pathological sodium retention including congestive heart failure, cirrhosis of the liver, and nephrotic syndrome. A variety of mechanisms including reduced delivery of filtrate to ANP-sensitive sites in the inner medullary collecting duct and diminished receptor density in this tubular segment have been offered to account for this resistance. Recent studies in experimental nephrotic syndrome and in liver disease produced by ligation of the common bile duct in rats suggest that increased activity of cyclic guanosine 3',5'-monophosphate (cGMP) phosphodiesterase may be an important mediator of renal resistance to ANP. Such increased enzyme activity rapidly catabolizes the second messenger cGMP, normally formed when ANP interacts with its biologically active natriuretic peptide. A receptors, thereby leading to blunted ANP responsiveness. This increased phosphodiesterase activity offers a novel approach to the management of clinical conditions associated with sodium retention and edema formation.
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PMID:Phosphodiesterases (PDEs) hydrolyze the 3' phosphoester bond of the purine 3',5'-cyclic monophosphates, cAMP and cGMP. 876 Feb 35

Resistance to the natriuretic action of atrial natriuretic peptide (ANP) is a hallmark of states of pathological sodium retention including congestive heart failure, cirrhosis of the liver, and nephrotic syndrome. A variety of mechanisms including reduced delivery of filtrate to ANP-sensitive sites in the inner medullary collecting duct and diminished receptor density in this tubular segment have been offered to account for this resistance. Recent studies in experimental nephrotic syndrome and in liver disease produced by ligation of the common bile duct in rats suggest that increased activity of cyclic guanosine 3',5'-monophosphate (cGMP) phosphodiesterase may be an important mediator of renal resistance to ANP. Such increased enzyme activity rapidly catabolizes the second messenger cGMP, normally formed when ANP interacts with its biologically active natriuretic peptide A receptors, thereby leading to blunted ANP responsiveness. This increased phosphodiesterase activity offers a novel approach to the management of clinical conditions associated with sodium retention and edema formation.
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PMID:Phosphodiesterase activity as a mediator of renal resistance to ANP in pathological salt retention. 876 Feb 36

Cirrhotic patients with ascites show increased plasma levels of natriuretic peptides from cardiac origin (i.e., atrial natriuretic peptide [ANP] and brain natriuretic peptide [BNP]). Urodilatin is a unique member of the natriuretic peptide family because it is exclusively synthesized in the kidney acting on a paracrine fashion in the regulation of sodium excretion. To investigate the renal production of urodilatin in cirrhosis and its relationship with other natriuretic peptides and sodium retention, urodilatin excretion and plasma levels of ANP were measured in 21 healthy subjects, 13 cirrhotic patients without ascites and 23 cirrhotic patients with ascites. Urine urodilatin was measured with a highly specific radioimmunoassay using a polyclonal antibody against human urodilatin. Patients with ascites had marked sodium retention (UNa 7 +/- 2 mEq/d) as compared to patients without ascites and healthy subjects (29 +/- 3 mEq/d and 34 +/- 5 mEq/d, respectively, P < .001). Patients with cirrhosis and ascites had urine urodilatin excretion similar to patients without ascites and healthy subjects (82 +/- 8 pmol/g, 95 +/- 10 pmol/g, and 89 +/- 9 pmol/ g of creatinine, respectively; not significant). In addition, immunoreactive urodilatin from cirrhotic patients with ascites and healthy subjects showed a similar chromatographic pattern. By contrast, plasma ANP levels were increased significantly in patients with ascites (29 +/- 3 fmol/mL) as compared with patients without ascites or healthy subjects (14 +/- 3 fmol/mL and 6 +/- 1 fmol/mL, respectively; P < .01). In conclusion, urine urodilatin excretion is normal in patients with cirrhosis even in the presence of marked sodium retention. The coexistence of increased ANP levels and normal urodilatin excretion suggests that in cirrhosis both natriuretic peptides are regulated independently.
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PMID:Urinary excretion of urodilatin in patients with cirrhosis. 893 75

A new, fast and reliable radioimmunoassay for measurement of brain natriuretic peptide (BNP) in human plasma has been developed and its application is reported in healthy subjects and in patients with congestive heart failure, chronic renal failure, liver cirrhosis and essential hypertension. The antibody was raised in rabbits, the tracer was made by the iodogen method and polyethylene glycol was used for separation of free and bound tracer. BNP was extracted from plasma using Sep-Pak C18 cartridges. The recovery of unlabelled BNP added to plasma was 77.5 +/- 6.2% (mean +/- SD). The detection limit in plasma was 0.55 pmol l-1. No cross-reactivity existed with the natriuretic peptides ANP, CNP or urodilatin. In 124 healthy subjects the mean BNP was 1.8 +/- 1.0 pmol l-1 (SD), range 0.6-5.5. BNP increased slightly with age, was higher in women than men and had no circadian rhythm. In eight patients with congestive heart failure the median BNP level was 30.5 pmol l-1, range 3.9-65.3. In 14 patients with chronic renal failure the median BNP level was 50.5 pmol l-1, range 10.9-219.8 before dialysis, and 38.0 pmol l-1, range 9.4-180.0 immediately following dialysis. In 25 patients with liver cirrhosis the median BNP value was 7.8 pmol l-1, range 1.2-43.1. There was no difference between patients with or without ascites. In 18 medically treated patients with essential hypertension the median BNP level was 5.0 pmol l-1, range 1.2-45.5 pmol l-1.
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PMID:A new, fast and reliable radioimmunoassay of brain natriuretic peptide in human plasma. Reference values in healthy subjects and in patients with different diseases. 935 73

This study reports the effects of a short-term (60 min) low-dose (20 ng x kg(-1) x min(-1)) infusion of synthetic urodilatin (URO) in patients with liver cirrhosis. URO is a natriuretic peptide. A total of 15 cirrhotic patients with ascites and nine without ascites participated in a randomized, double-blind, placebo-controlled study in a crossover design. Renal hemodynamics were estimated by a clearance technique using radioactive tracers, and tubular handling of sodium was evaluated by the lithium clearance method. The renal effects of URO were characterized by a significant increase in urine sodium excretion rate (UNa) and urine flow rate (V) in the cirrhotic patients without ascites (UNa: 173%; V: 94%) and with ascites (UNa: 219%, P < 0.01; V: 42%, P < 0.01) when compared with placebo infusions. Fractional excretion of sodium increased significantly, indicating a tubular effect of URO on sodium handling. Filtration fraction, lithium clearance (a marker of end-proximal fluid delivery), and fractional excretion of lithium increased, fractional proximal tubular sodium reabsorption decreased, and absolute proximal tubular sodium reabsorption remained unchanged, suggesting increased delivery of isotonic fluid from the proximal tubule during URO infusion. In addition, a significant decrease in fractional distal tubular sodium reabsorption contributed to the natriuresis. In conclusion, URO improved sodium and urine output in cirrhotic patients with and without ascites by enhancing fluid delivery from the proximal tubules in addition to inhibiting fractional sodium reabsorption in the distal nephron.
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PMID:Renal effects of a urodilatin infusion in patients with liver cirrhosis, with and without ascites. 969 72


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