An explanation for and experimental correction of the abnormal water diuresis in cirrhosis

Approach and management of dysnatremias in cirrhosis

Hypervolemic (dilutional) hyponatremia is the most common dysnatremia in cirrhosis, with a prevalence close to 50% in patients with ascites, while hypovolemic hyponatremia occurs in a minority of cases. Hyponatremia carries a poor prognosis, being associated with increased mortality and reduced survival after liver transplantation. Hypernatremia is rarer and is also associated with an adverse prognosis. Increased non-osmotic secretion of arginine vasopressin and altered renal tubular sodium handling due to impaired free water generation are the mechanisms leading to hypervolemic hyponatremia, while diuretic-induced fluid loss is the main cause of hypovolemic hyponatremia. Hypernatremia usually follows hypotonic fluid losses due to osmotic diuresis (glycosuria) or lactulose-induced diarrhea. The main clinical manifestations of dysnatremias are due to their effects on the central nervous system: astroglial cell hyperhydration follows hyponatremia-an abnormality that exacerbates ammonia neurotoxicity-while the opposite abnormality occurs with hypernatremia. Asymptomatic or mildly symptomatic hypervolemic hyponatremia is mainly managed by correcting of precipitating factors and non-osmotic fluid restriction. Severe, life-threatening hyponatremia requires hypertonic saline infusion, avoiding rapid and complete correction of serum sodium concentration to prevent neurological sequelae such as osmotic demyelination. V₂ receptor blockade by vaptans may be considered in patients with sustained hyponatremia waitlisted for liver transplantation. Diuretic withdrawal and plasma volume expansion are required in hypovolemic hypernatremia. Prompt recognition, removal of the precipitating factor(s) and non-osmotic fluid administration represent the mainstays of hypernatremia management. Rapid correction of long-standing hypernatremia can lead to cerebral edema and has to be avoided.

Hyponatremia in Patients with Cirrhosis of the Liver

Hyponatremia is common in cirrhosis. It mostly occurs in an advanced stage of the disease and is associated with complications and increased mortality. Either hypovolemic or, more commonly, hypervolemic hyponatremia can be seen in cirrhosis. Impaired renal sodium handling due to renal hypoperfusion and increased arginine-vasopressin secretion secondary to reduced effective volemia due to peripheral arterial vasodilation represent the main mechanisms leading to dilutional hyponatremia in this setting. Patients with cirrhosis usually develop slowly progressing hyponatremia. In different clinical contexts, it is associated with neurological manifestations due to increased brain water content, where the intensity is often magnified by concomitant hyperammonemia leading to hepatic encephalopathy. Severe hyponatremia requiring hypertonic saline infusion is rare in cirrhosis. The management of asymptomatic or mildly symptomatic hyponatremia mainly rely on the identification and treatment of precipitating factors. However, sustained resolution of hyponatremia is often difficult to achieve. V2 receptor blockade by Vaptans is certainly effective, but their long-term safety, especially when associated to diuretics given to control ascites, has not been established as yet. As in other conditions, a rapid correction of long-standing hyponatremia can lead to irreversible brain damage. The liver transplant setting represents a condition at high risk for the occurrence of such complications.

Intravenous albumin infusion is an effective therapy for hyponatremia in patient with malignant ascites

There are few reports about the treatment of moderate to severe hyponatremia associated with malignant liver metastasis. Here, we report using intravenous salt poor albumin infusion to treat hypervolemic cirrhosis related hyponatremia. A 58-year-old female with ascites secondary to metastatic breast cancer was referred to our department with symptomatic hyponatremia (serum sodium concentration of 121 mEq/L). The serum sodium level was corrected slowly over 2 days with intravenous albumin infusion and the patient's symptoms – fatigue, nausea, dizziness and headache improved.

The kidney in congestive heart failure: 'are natriuresis, sodium, and diuretics really the good, the bad and the ugly?'

This review discusses renal sodium handling in heart failure. Increased sodium avidity and tendency to extracellular volume overload, i.e. congestion, are hallmark features of the heart failure syndrome. Particularly in the case of concomitant renal dysfunction, the kidneys often fail to elicit potent natriuresis. Yet, assessment of renal function is generally performed by measuring serum creatinine, which has inherent limitations as a biomarker for the glomerular filtration rate (GFR). Moreover, glomerular filtration only represents part of the nephron's function. Alterations in the fractional reabsorptive rate of sodium are at least equally important in emerging therapy-refractory congestion. Indeed, renal blood flow decreases before the GFR is affected in congestive heart failure. The resulting increased filtration fraction changes Starling forces in peritubular capillaries, which drive sodium reabsorption in the proximal tubules. Congestion further stimulates this process by augmenting renal lymph flow. Consequently, fractional sodium reabsorption in the proximal tubules is significantly increased, limiting sodium delivery to the distal nephron. Orthosympathetic activation probably plays a pivotal role in those deranged intrarenal haemodynamics, which ultimately enhance diuretic resistance, stimulate neurohumoral activation with aldosterone breakthrough, and compromise the counter-regulatory function of natriuretic peptides. Recent evidence even suggests that intrinsic renal derangements might impair natriuresis early on, before clinical congestion or neurohumoral activation are evident. This represents a paradigm shift in heart failure pathophysiology, as it suggests that renal dysfunction-although not by conventional GFR measurements-is driving disease progression. In this respect, a better understanding of renal sodium handling in congestive heart failure is crucial to achieve more tailored decongestive therapy, while preserving renal function.

Dilutional hyponatremia in pre-eclampsia

OBJECTIVE

The objective of this report is to describe a defect in water metabolism, characterized by hyponatremia, in patients with pre-eclampsia-induced nephrotic syndrom.

STUDY DESIGN

This was an observational study of 3 women.

RESULTS

Hyponatremia was observed in 3 women with pre-eclampsia characterized by various extrarenal manifestations, as well as by nephrotic syndrome with normal or nearly normal renal function. Restriction in water intake partially corrected hyponatremia before delivery in each case, and no complications were observed in the neonates. The mechanism of impaired excretion of water in these patients is proposed to involve persistent and inappropriate production of vasopressin through stimulation of the nonosmotic mechanism for vasopressin secretion in response to a reduction in effective plasma volume.

CONCLUSIONS

These results indicate for the first time that women with pre-eclampsia are, at least when nephrotic, at risk for development of dilutional hyponatremia, which can cause neurologic complications that simulate those of eclampsia.

Renal and adrenal relationships in refractory edema

The relationships between the excretion of sodium and water and adrenal activity in patients with refractory edema have been investigated.

Experiments have been performed over a prolonged period with varying doses and combinations of spironolactone, prednisone, hydrochlorothiazide, Su4885, and ACTH. In four patients with Laennec's cirrhosis with ascites the effects of prednisone on the excretion of water and solute were studied during maximum water diuresis.

The results indicate that diuretic agents may increase the excretion of sodium without water within certain undefined limits. This effect probably resulted from the delivery to the concentrating segment of an amount of sodium inadequate to dissipate the gradients favoring water reabsorption.

Prednisone appeared to have a dual effect: one on the excretion of water, the other on the excretion of sodium. The effects on sodium and water did not appear to be related.

The effects of prednisone on the excretion of water support the concept that the glucocorticoids exert an effect on water in the renal tubules rather than on the posterior pituitary.

Prednisone enhanced sodium excretion only when given together with another diuretic agent. It is suggested that the failure of prednisone alone to increase sodium excretion resulted from a blockade of ACTH secretion and, thereby, the adrenal synthetic pathway of aldosterone, whereas the renal aldosterone-stimulating pathway continued to function. The potentiating effect of prednisone on the excretion of sodium becomes apparent only when aldosterone activity is overcome in the renal tubules by the natriuretic effects of various diuretics.

It is considered possible that renal aldosterone-stimulating hormone acts only under more intense stimuli to edema formation.

Increased plasma levels of substance P and disturbed water excretion in patients with liver cirrhosis

BACKGROUND

The pathogenesis of impaired water excretion in liver cirrhosis has not been fully elucidated.

METHODS

We induced an intravenous water overload of 20 ml/kg body weight in 10 cirrhotics without ascites (CLC), 11 cirrhotics with ascites (DLC), and 10 normal subjects (N) and investigated the relationship of plasma levels of substance P (SP), norepinephrine (NE), and antidiuretic hormone (ADH) to impaired water excretion.

RESULTS

Free water clearance (CH2O) was lower in DLC (mean, 2.7 ml/min) than in N (8.3 ml/min; P < 0.001) and CLC (6.9 ml/min; P < 0.001). In DLC the creatinine clearance (CCr), maximal urine flow rate/CCr, (CH2O + CNa)/CCr, and mean arterial pressure (MAP) were significantly lower than in N and CLC. There was a progressive increase in basal SP, from lowest in N to CLC, to highest in DLC. Basal NE increased in CLC and DLC. Basal ADH did not differ among N, CLC, and DLC. In cirrhotics CH2O was correlated positively with serum albumin and cholinesterase and negatively with the retention rate of indocyanine green at 15 min. Basal SP was negatively correlated with CH2O (r= -0.71: P < 0.001) and MAP (r= -0.56; P < 0.005). Basal NE was correlated positively with basal SP (r= 0.67, P < 0.01 ).

CONCLUSIONS

Decreased CH2O is closely related to the severity of the liver disturbance. Decreased CCr and reduced delivery of filtrate to the ascending limb of the loop of Henle secondary to an increased sodium reabsorption in the proximal tubule may play an important role in the impairment of water excretion. The increase in SP, which has a potent vasodilatory action, and the associated enhanced activity of the sympathetic nervous system may be responsible for the mild or moderate impairment of water excretion in the absence of nonosmotic hypersecretion of ADH in cirrhotics with ascites.

Therapeutic and diagnostic potential of a vasopressin-2 antagonist for impaired water handling in cirrhosis

OBJECTIVE

Progressive cirrhosis is associated with increasing difficulty to handle free water. We examined the therapeutic potential of an orally active nonpeptide vasopressin-2 receptor antagonist (OPC-31260) in the management of edema and ascites in patients with cirrhosis. By means of its chemical blockade of the vasopressin-2 receptor in the kidney, we also assessed the ability of renal water handling in the early stage of cirrhosis.

METHODS

A single 30 mg dose of OPC-31260 was administered orally to eight biopsy-proven patients with cirrhosis who had ascites or peripheral edema. The aquaretic responses were compared with those in six healthy subjects.

RESULTS

In the patients with cirrhosis, OPC-31260 significantly (p < 0.01) increased the urinary excretion rate at 0 to 2 hours, and significantly (p < 0.01) lowered urine osmolality at 2 to 4 hours after administration. Free water clearance increased from -0.48 +/- 0.14 to +0.19 +/- 0.21 ml/min (p < 0.05) at 0 to 4 hours after administration. However, these aquaretic responses in the patients with cirrhosis were only approximately half the responses observed in the healthy subjects. A significant (p < 0.05) inverse relationship was observed between indocyanine green retention at 15 minutes after administration and the maximal free water clearance after administration to the patients with cirrhosis. Urinary sodium excretion did not change significantly in the patients, whereas it increased twofold in the healthy subjects. Urinary vasopressin excretion tended to increase in the patients, whereas it increased twofold to threefold (p < 0.01 to 0.05) from the baseline in the healthy subjects. Urinary prostaglandin E2 excretion was not increased, and serum sodium and plasma vasopressin levels were elevated only slightly in both groups.

CONCLUSIONS

Even though a hyporesponsiveness was observed in the group of patients with cirrhosis compared with the healthy group, the novel vasopressin-2 antagonist induced hypotonic diuresis in patients with cirrhosis, suggesting a therapeutic potential in managing water excess. This drug response may be a new index to assess impairment of water handling in patients with cirrhosis.

Hepatic encephalopathy and ascites

The first abnormality leading to sodium and water retention in cirrhosis is the renal tubular defect that is related to deteriorating liver function and hyperaldosteronism. With progression of liver disease and portal hypertension, renal blood flow declines because of the hepatorenal reflex, and is then maintained by the vasoactive hormonal systems. With increasing peripheral vasodilatation, intrarenal factors for maintenance of renal perfusion cause intense cortical vasoconstriction. The systemic vasoactive factors are predominantly compensatory; any attempts to counteract their action risk circulatory collapse. Future studies should be directed at intrarenal factors. The ideal drug for the treatment of portal hypertension would reduce portal pressure, increase renal blood flow, and produce insignificant changes in arterial pressure.

Reduced liver function is the trigger for renal sodium retention following portal vein ligation in the rat

Sodium retention along with peripheral vasodilation are features of prehepatic portal hypertension. In several models of experimental liver damage, sodium retention occurs only when hepatic function, measured by the aminopyrine breath test (ABT-k), falls below a critical threshold. The relationship between renal sodium handling, ABT-k and systemic and renal haemodynamics in partial portal vein ligated (PVL) rats was examined to test hypothesis that peripheral vasodilation was responsible for initiating sodium retention. Haemodynamic measurements were conducted early after surgery in portal hypertensive rats with and without sodium retention and in sham-operated controls. Compared with control, both PVL groups of rats had elevated portal pressure and lower peripheral vascular resistance (P < 0.05). Sodium retaining-PVL rats had both lower ABT-k (0.95 +/- 0.05 vs 1.38 +/- 0.06 x 10(-2)/min; P < 0.05) and higher sodium balance (1.38 +/- 0.09 vs 0.43 +/- 0.09 mmol/day; P < 0.05) than non-sodium retaining PVL rats. No differences in plasma renin activity or noradrenaline concentrations were observed. In a separate group of rats, hydralazine-induced pheripheral vasodilation did not induce sodium retention. These results suggest that the presence of peripheral vasodilation alone is not sufficient to trigger a sodium-retaining status. A factor, probably liver function-dependent, acting directly on renal tubules may be necessary for changes in renal sodium handling in this model.

Hormonal, renal, and autonomic nerve factors involved in the excretion of sodium and water during dynamic salt and water loading in hypoxaemic chronic obstructive pulmonary disease

BACKGROUND

Some patients with hypoxaemic chronic obstructive pulmonary disease (COPD) develop sodium and water retention and a subclinical autonomic neuropathy. The possibility that these might be associated has been investigated.

METHODS

The ability of 24 patients with COPD to excrete a 6 ml/kg 2.7% intravenous saline or 15 ml/kg oral water load was studied and changes in plasma electrolyte levels, osmolality, plasma aldosterone and vasopressin levels, urinary volume and sodium content, glomerular filtration rate, renal blood flow, and cardiovascular autonomic nerve function were measured. Patients were divided into groups of eight: those in group A (controls) had mild COPD with a Pa02 of > 9 kPa and no oedema, patients in group B were more hypoxaemic but had never been oedematous, whilst those in group C were hypoxaemic and mildly oedematous at the time of the study.

RESULTS

Patients in groups B and C excreted less sodium and water during saline loading and a lesser proportion of the water load. Patients in group C had a reduction in renal blood flow and glomerular filtration rate and all had a subclinical autonomic neuropathy, which was also found in three patients in group B. Their plasma aldosterone level was raised but did suppress appropriately on saline loading. Vasopressin levels were abnormally raised for the osmolality in patients in group C and in those with autonomic dysfunction throughout the water load and at 240 minutes after the salt load. Sodium and urine excretion was highly correlated with autonomic dysfunction, aldosterone levels at time zero, and renal blood flow. The 11 patients with autonomic dysfunction were more likely to be oedematous, more hypoxaemic, excreted much less urine and sodium, had lower glomerular filtration rate and renal blood flow, and higher aldosterone and vasopressin levels than the remaining patients.

CONCLUSIONS

In patients with COPD the inability to excrete sodium and water is multifactorial. This is the first study to show that autonomic dysfunction is at least associated and might play an important part in the impaired sodium and water homeostasis seen in patients with severe COPD.

Refractory ascites: modulation of atrial natriuretic factor unresponsiveness by mannitol

We have previously shown that unresponsiveness to atrial natriuretic factor is a marker of the severity of ascites. The tubular mechanisms are unknown, but it seems that increased reabsorption of sodium proximal to the main site of action of atrial natriuretic factor (i.e., the inner medullary collecting duct) plays an important role. We attempted to decrease the proximal reabsorption of sodium with mannitol in patients unresponsive to atrial natriuretic factor. The results of mannitol in such a group of patients has previously been conflicting. We studied 10 patients with massive, resistant ascites who were off diuretics and on a 20-mmol/day sodium diet for 7 days. Atrial natriuretic factor unresponsiveness was confirmed by failure of a 2-hr atrial natriuretic factor infusion to induce a natriuresis. The next day all patients received an infusion of 40 gm of mannitol and subsequently a combined infusion of mannitol and atrial natriuretic factor. Proximal reabsorption of sodium and water were evaluated by lithium clearance, and glomerular filtration rate and renal blood flow were evaluated by inulin clearance and p-aminohippurate clearances, respectively. Six patients responded to mannitol alone with an increased diuresis (from 39 +/- 7 to 148 +/- 35 ml/hr) and natriuresis (from 0.27 +/- 0.05 mmol/hr to 1.65 +/- 0.53 mmol/hr; p less than 0.05) (responders), whereas four did not (nonresponders). The combination of atrial natriuretic factor and mannitol induced a further significant increase in sodium excretion (3.28 +/- 0.68 mmol/hr) but not in urine excretion, compared with mannitol alone.(ABSTRACT TRUNCATED AT 250 WORDS)

Changes in atrial natriuretic peptide concentrations during intravenous saline infusion in hypoxic cor pulmonale

BACKGROUND

The pathogenesis of oedema in hypoxic cor pulmonale is poorly understood. One possibility is a failure of atrial natriuretic peptide release, leading to salt and water retention. This hypothesis was tested by observing the response to an intravenous saline challenge in patients with and without cor pulmonale.

METHODS

Plasma atrial natriuretic peptide concentrations were measured before and for three hours after an intravenous saline load (0.1 ml 2.7% saline/kg/min for 60 minutes) in 20 patients with chronic obstructive airways disease. Ten patients with cor pulmonale, as judged clinically by the presence of peripheral oedema with a previously documented increase in the jugular venous pressure or pleural effusions during an acute exacerbation of airway obstruction (mean (SE) age 67 (3) years, FEV1 0.73 (0.08) 1, arterial oxygen tension (PaO2) 6.4 (0.4) kPa, and arterial carbon dioxide tension (PaCO2) 6.7 (0.3) kPa), were compared with 10 patients with hypoxic chronic obstructive airways disease who had never had oedema (mean age 63 (1) years, FEV1 1.07 (0.09) 1, PaO2 8.6 (0.4) kPa, and PaCO2 5.3 (0.2) kPa). All patients were studied fasting and after diuretics had been stopped for three days. No supplemental oxygen was given.

RESULTS

The mean four hourly urine sodium excretion was less in the patients who had oedema (27 (4.6) mmol, 13% of the intravenous load) than in those without oedema (82 (15.5) mmol, 43% of the load). Initial mean plasma atrial natriuretic peptide values were significantly higher in the patients with cor pulmonale (19.1 (1.6) compared with 10.2 (0.7) pmol/l) and the mean peak rise in atrial natriuretic peptide after the intravenous saline load had been given was 13 (8.0) pmol/l in the patients with cor pulmonale and 5.5 (2.3) pmol/l in the controls. There were no significant differences in plasma and urinary osmolality, blood pressure, or creatinine clearance between the groups.

CONCLUSION

Patients with chronic obstructive airways disease and cor pulmonale have an impaired ability to excrete a hypertonic intravenous saline load despite a normal physiological release of plasma atrial natriuretic peptide.

Effect of intrathoracic pressure on plasma arginine vasopressin levels

Abdominal distention during pneumoperitoneum results in a marked increase in plasma arginine vasopressin levels, which has been ascribed to an increase in intrathoracic pressure. Because of this relationship, tense ascites could contribute to nonosmotic release of antidiuretic hormone, to the development of hyponatremia, and eventually to further ascites formation. The effect of pneumoperitoneum, thoracocentesis, and paracentesis on plasma arginine vasopressin levels was studied in three groups of patients, and the mechanism by which these maneuvers may induce these changes was investigated. Patients with pleural effusion, pneumothorax, or ascites showed a significant increase in plasma arginine vasopressin levels, and thoracocentesis or paracentesis resulted in a decrease in these levels. Plasma vasopressin levels increased significantly during pneumoperitoneum, as did intrathoracic and atrial pressures; the atrial transmural pressure gradient declined. However, no changes in plasma levels of norepinephrine, aldosterone, and renin activity were observed during pneumoperitoneum. Changes in plasma arginine vasopressin levels correlated with the changes in intrathoracic and atrial pressures and transmural pressure gradient. The authors conclude that increased intrathoracic pressure is associated with an increase in plasma arginine vasopressin levels and propose that ascites could be a factor promoting vasopressin release by acting on intrathoracic volume receptors in decompensated cirrhotics.

Tubular sodium handling in cirrhotic patients with ascites as analysed by the renal lithium clearance method

The proximal and distal sodium reabsorption were calculated from lithium clearance in 21 healthy controls and 24 cirrhotic patients with ascites after 4 days under a sodium-restricted diet. The values of fractional lithium clearance were lower in patients than in controls (7.37 +/- 0.87 vs. 18.13 +/- 1.76%, P less than 0.001). Fractional proximal sodium reabsorption was increased in patients compared with controls (92.8 +/- 1.1 vs. 81.8 +/- 1.7%, P less than 0.001). No differences were found in fractional distal sodium reabsorption between controls and patients (96.9 +/- 0.8 vs. 98.6 +/- 0.1%). When patients were separated into two subgroups according to their sodium balance, it was found that fractional distal sodium reabsorption was increased in patients whose balance remained positive, compared with patients on a negative sodium balance (98.99 +/- 0.26 vs. 94.11 +/- 1.50%, P less than 0.05). In addition, the natriuretic response to a specific dose of spironolactone was higher in patients on positive sodium balance compared with patients on negative sodium balance (per cent increase in natriuresis after spironolactone 300 mg day-1: 355.24 +/- 73.98 vs. 84.21 +/- 15.8%, P less than 0.01). We conclude that proximal sodium reabsorption is increased in cirrhotics with ascites. In addition, distal sodium reabsorption is enhanced only in those patients which exhibit avid sodium retention.

Intravenous albumin infusion is an effective therapy for hyponatraemia in cirrhotic patients with ascites

The treatment of moderate to severe hyponatraemia in patients with decompensated liver disease is unsatisfactory. We report our preliminary experience using intravenous infusion of albumin to treat this condition. Three patients with cirrhosis, ascites, and hyponatraemia responded satisfactorily to treatment; one patient with fulminant hepatitis B did not respond. Intravenous albumin infusion is a safe and effective therapy for patients with cirrhosis complicated by hyponatraemia. Its main role may be in preparing patients for surgery, particularly liver transplantation.

Tubular site of renal sodium retention in ascitic liver cirrhosis evaluated by lithium clearance

Renal tubular sodium handling was evaluated in 27 non-azotemic cirrhotic patients with ascites and positive sodium balance and in 17 controls after at least 5 days of a constant sodium intake using the lithium clearance as an index of fluid delivery to the distal tubule. Plasma renin activity and plasma aldosterone were also evaluated. Sodium fractional excretion, filtered sodium load, absolute sodium distal delivery, lithium fractional excretion and absolute distal sodium reabsorption were significantly lower in cirrhotics than in controls (0.58 +/- 0.11 vs. 1.29 +/- 0.12%, P less than 0.001; 12529 +/- 677 vs. 15707 +/- 796 microEq min-1 1.73 m-2 BSA, P less than 0.005; 2384 +/- 135.2 vs. 3685 +/- 219.3 microEq min-1 1.73 m-2 BSA, P less than 0.001; 19.5 +/- 1.0 vs. 24.2 +/- 1.3%, P less than 0.01; 2299 +/- 127 vs. 3485 +/- 214 microEq min-1 1.73 m-2 BSA, P less than 0.001, respectively). A correlation was found between lithium clearance and sodium clearance only in cirrhotic patients (r = 0.62; P less than 0.01). Distal sodium reabsorption evaluated as a per cent of filtered sodium load was lower in cirrhotics than in controls (19.1 +/- 1.0 vs. 22.4 +/- 1.2%, P less than 0.05) while distal sodium reabsorption evaluated as a per cent of sodium distal delivery was higher in cirrhotics than in controls (96.7 +/- 0.4 vs. 94.4 +/- 0.5%, P less than 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)

Blockade of the hydroosmotic effect of vasopressin normalizes water excretion in cirrhotic rats

Water retention in cirrhosis has classically been considered to be due to a low distal fluid delivery secondary to increased proximal sodium reabsorption. However, recent studies showing high plasma vasopressin levels in patients and rats with cirrhosis, ascites, and dilutional hyponatremia suggest that a nonosmotic vasopressin hypersecretion could be an alternative mechanism. To investigate the role of vasopressin in water retention in cirrhosis, the renal ability to excrete a water load (50 ml/kg body wt), as estimated by the minimum urinary osmolality and the percentage of the water load excreted during 3 h, was assessed in 10 control rats and in 20 cirrhotic rats with ascites and impaired water excretion and high urinary excretion of vasopressin. Twenty-four hours later, the same procedure was repeated in cirrhotic rats 20 min after the subcutaneous injection (30 micrograms/kg body wt) of d(CH2)5Tyr(Et) VAVP, an antagonist of the hydroosmotic effects of vasopressin (10 rats), or the vehicle (10 rats). Treatment with the vasopressin antagonist normalized water excretion in 9 of the 10 rats. No significant changes in renal water metabolism were observed in the group of rats given the vehicle. These results indicate that vasopressin hypersecretion is the predominant mechanism of the impairment in water excretion in rats with experimental cirrhosis and ascites.

A lithium clearance study of sodium reabsorption at the proximal tubule in liver cirrhosis with ascites

Since the reabsorption of lithium occurs almost exclusively in the proximal tubule and is associated with that of sodium, the fractional excretion of lithium (FELit) ws examined in 18 patients with cirrhosis in order to examine the reabsorption rate of sodium at the proximal tubule. As expected, the fractional excretion of sodium (FENa) was significantly lower in cirrhotic patients with ascites (0.43 +/- 0.10%, mean +/- SEM) than in cirrhotic patients without ascites (0.75 +/- 0.14%, P less than 0.05) and healthy controls (0.82 +/- 0.17%, P less than 0.05). By contrast, there was no significant difference in FELit among cirrhotic patients with ascites (16.7 +/- 2.0%), cirrhotic patients without ascites (15.4 +/- 2.0%) and controls (17.4 +/- 1.5%). It is unlikely, therefore, that in cirrhotic patients with ascites, the impaired sodium excretion is solely caused by the abnormal sodium reabsorption capacity of the proximal tubule.

Circadian variation in renal sodium and potassium handling in cirrhosis. The role of aldosterone, cortisol, sympathoadrenergic tone, and intratubular factors

Renal sodium and potassium handling, plasma aldosterone and cortisol concentrations, and urine free norepinephrine excretion were determined every 4 h for 24 h in 15 cirrhotics (7 without ascites, group 1; 8 with ascites, group 2) and 7 healthy controls during controlled salt intake and recumbency. Renal sodium excretion was significantly reduced in group 2, whereas it exceeded threefold the salt intake in group 1. Its circadian rhythm was disrupted in both groups of patients. Significant inverse correlations with plasma aldosterone were found erratically in controls, never in group 1, and at every 4-h interval in group 2. In the latter, the indexes of tubular activity and effectiveness of aldosterone were also significantly increased. Urine norepinephrine excretion was never related to sodium excretion in either controls or patients; in group 2 it was directly correlated with glomerular filtration rate in many instances. The cortisol-related circadian rhythm of kaliuresis was retained only in group 1. The 24-h renal potassium excretion of controls and patients was comparable, in spite of the striking hyperaldosteronism, and the more than doubled contribution of aldosterone to kaliuresis shown in group 2. The influence of aldosterone on potassium excretion was also witnessed by the direct correlation between these variables found in group 1 and, when kaliuresis was corrected by the distal sodium delivery, group 2. Renal sodium handling in cirrhosis is altered even before ascites formation and compensated patients can undergo "spontaneous natriuresis." Aldosterone is the main cause of sodium retention in nonazotemic ascitic patients, while sympathoadrenergic hyperactivity may contribute to preserve renal perfusion. The influence of aldosterone on kaliuresis is enhanced, but renal potassium wasting in patients with ascites and hyperaldosteronism is prevented by reduced distal tubular availability of sodium.

Impaired renal water excretion in liver cirrhosis. The role of reduced distal delivery of sodium

The study was aimed to assess the relationships between distal sodium delivery and renal diluting ability in liver cirrhosis. Renal response to maximal water load was evaluated in 18 cirrhotic patients without ascites, 12 with mild or moderate ascites, and 26 controls. Distal sodium delivery was derived from clearance calculations during the hypotonic diuresis induced by maximal water load. Although ascitic patients showed a greater impairment in free-water excretion, the pattern of the renal response to maximal water load was similar in ascitic and non-ascitic patients; it was characterized by reduced free-water clearance and reduced distal delivery of sodium. Free-water clearance corrected for distal sodium delivery was normal in non-ascitic patients and in the majority (75%) of decompensated cirrhotics, indicating a primary role of an increased proximal sodium resorption in the pathogenesis of the impaired water excretion of these patients. Renal diluting capacity did not correlate with the severity of liver functional impairment, as evaluated by single liver function tests or by Child's criteria.

Head-down tilt as a physiological diuretic in normal controls and in patients with fluid-retaining states

The effect of the sitting, supine, supine with legs elevated 10 degrees, and 10 degrees head-down tilt postures on renal fluid and electrolyte handling was investigated in 14 patients with hypoalbuminaemic fluid-retaining states and in 14 normal individuals. Basal (sitting) urine volume, creatinine clearance, and urinary electrolyte levels were significantly lower in patients than in controls. In patients the values of these variables increased progressively from the sitting to the supine to the legs elevated to the head-down postures. The percentage rise was higher in patients than in controls, to the extent that, in the head-low position, only creatinine clearance values remained lower in patients than in controls. The head-down posture acts as a physiological diuretic, enhancing diuresis by improving renal function in normal individuals and in patients with ascites and oedema due to hypoalbuminaemia; it also corrects the abnormal fluid and sodium retention in these patients.

Temporal relationship between the impairment of free water excretion and antidiuretic hormone hypersecretion in rats with experimental cirrhosis

To investigate the temporal relationship between the impairment of water excretion, sodium retention, and antidiuretic hormone hypersecretion in cirrhosis, free water excretion (estimated by the minimum urinary osmolality) and urinary antidiuretic hormone excretion (which correlates with the plasma levels of this hormone) were measured weekly after an oral water load in 18 rats with carbon tetrachloride-induced cirrhosis and in 20 control animals. The onset of ascites (as an index of sodium retention) in cirrhotic rats was estimated by sequential paracentesis. Thirteen cirrhotic animals developed an impairment of water excretion 2-5 wk after the onset of ascites. The urinary excretion of antidiuretic hormone in these animals, which was normal before the impairment of water excretion, increased markedly within the week in which this abnormality was first detected and remained high thereafter. The remaining 5 cirrhotic rats did not experience an impairment of free water excretion in spite of developing ascites. The urinary excretion of antidiuretic hormone in these animals was similar to that of control rats during the entire study. In all urine samples obtained from cirrhotic rats, there was a highly significant direct linear correlation between the urinary excretion of antidiuretic hormone and the minimum urinary osmolality. Our results show the following: in rats with carbon tetrachloride-induced cirrhosis, sodium retention preceded the impairment of water excretion; and in these animals, the defect in water metabolism correlated chronologically and quantitatively with antidiuretic hormone hypersecretion. These findings are consistent with the concept that antidiuretic hormone is a major determinant of the impaired water metabolism in cirrhosis.

Impaired renal water excretion in early hepatic cirrhosis. Lack of relationship between renal water excretion and plasma levels of arginine vasopressin, angiotensin II, and aldosterone after water loading

An oral water load of 20 ml per kg body weight was given to 9 patients with hepatic cirrhosis and 11 healthy controls. Urinary output, free water clearance, and plasma concentrations of arginine vasopressin, angiotensin II and aldosterone were determined before and three times during the first 4 h after loading. In the cirrhotic patients urinary output was significantly lower after loading than in the control subjects, mainly because of a lower free water clearance, and, in contrast to the healthy controls, the cirrhotic patients did not have natriuresis after water loading. No differences were found between patients and controls in arginine vasopressin, angiotensin II, aldosterone, or creatinine clearance. It is concluded that patients with well-compensated cirrhosis of the liver have an impaired ability to excrete sodium and water. This phenomenon does not seem to be due to increased arginine vasopressin secretion, activation of the renin-angiotensin-aldosterone system, or a decreased glomerular filtration rate.

Angiotensin II, aldosterone and arginine vasopressin in plasma in congestive heart failure

Angiotensin II (AII), aldosterone (Aldo) and arginine vasopressin (AVP) in plasma were determined during basal conditions in seventeen patients with congestive heart failure and in seventeen control subjects. The same parameters were measured before and 1, 2 and 3 h after an oral water load of 20 ml (kg body weight)-1 together with urine volume (V) and free water clearance (CH2O) in seven patients with congestive heart failure and in seven control subjects. AII, Aldo and AVP were significantly higher in heart failure than in control subjects (AII:81 and 12 pmol l(-1) (medians), P less than 0.01; Aldo: 411 and 103 pmol l(-1), P less than 0.01; AVP: 5.3 and 2.0 pmol l)-1), P less than 0.01). AVP was positively correlated to Aldo in both heart failure (p = 0.593, n = 17, P less than 0.02) and control subjects (p = 0.511, n = 17, P less than 0.05), but in neither of the groups to AII. V and CH2O were significantly lower in heart failure when compared to control subjects (maximum increase in CH2O 3.55 and 5.86 ml min-1, P less than 0.02), but did not correlate directly with either A II, Aldo or AVP. Creatinine clearance was reduced in heart failure. It is concluded that the activity of both the renin-angiotensin-aldosterone system and the osmoregulatory system is enhanced in congestive heart failure, presumably as a compensatory phenomenon in order to maintain arterial blood pressure. It is suggested that the decrease in free water clearance may be attributed to both an elevated level of vasopressin and a reduced glomerular filtration rate.

Disorders of the serum electrolytes, acid-base balance, and renal function in alcoholism

This chapter reviews the disturbances of the serum sodium and potassium concentrations, acid-base imbalances, and acute renal dysfunction that are seen frequently in alcoholic patients. The hyponatremia common in decompensated cirrhotics is caused by an impairment of renal free water clearance and concomitant water ingestion. Excessive proximal renal tubular sodium reabsorption and nonosmotic vasopressin release underlie the defect in renal water excretion in cirrhosis. Restriction of water intake is the principal therapeutic measure for hyponatremia. Hypokalemia is common in alcoholics but when observed does not always represent true potassium depletion. Although most cirrhotics have a diminished total body potassium content, intracellular potassium concentration is usually normal. In some patients gastrointestinal and renal potassium losses and nutritional potassium deficiency may cause true potassium depletion. Respiratory and metabolic alkalosis are the acid-base disturbances seen most frequently in alcoholics. Acidosis is relatively uncommon and is usually due to renal insufficiency, lactic acid or keto-acid accumulation. Toxin ingestion (methanol, ethylene glycol, or isopropanol) may also cause severe acidosis. Rhabdomyolysis, common in severe alcoholism, may produce various electrolyte disturbances and acute renal failure. The prognosis for recovery is good although temporary dialysis may be necessary.

The pathogenesis of renal sodium retention and ascites formation in Laennec's cirrhosis

This chapter critically reviews our current understanding of the pathogenesis, clinical syndrome, and therapy of the disturbances of renal sodium handling, renal perfusion, and glomerular filtration rate that occur in patients with Laennec's cirrhosis. Avid renal sodium reabsorption, a characteristic feature of cirrhosis, occurs independent of moderate changes in renal function and precedes the onset of ascites. The initiation of sodium retention may be a direct consequence of the hepatic disease process and may also result from defective intravascular filling. In the presence of ascites the most important sodium retaining signal is a defective intravascular volume. The principal effectors of renal sodium retention and vasoconstriction are stimulation of the renin-angiotensin-aldosterone axis and augmentation of renal sympathetic nerve activity. Deficient production of natriuretic hormone(s) and endogenous renal vasodilators, such as prostaglandins and kinins, also contributes to the sodium retention and renal hypoperfusion seen in cirrhosis. The hepatorenal syndrome is an extreme imbalance in these renal vasoconstrictor and vasodilator forces. In the therapy of ascites in Laennec's cirrhosis, abstention from alcohol, sodium restriction, and cautious diuresis are the principal therapeutic measures. A grave prognosis accompanies the diagnosis of the hepatorenal syndrome although recoveries have been reported.

Derangements of renal water handling in liver disease

It is apparent that renal water retention in patients with advanced liver disease constitutes a fascinating clinical constellation with numerous and diverse causes and an elusive pathophysiology. The dissociation between elevated AVP levels and the attendant changes in renal water handling under diverse experimental conditions, and the demonstration of an impairment in renal water excretion in response to prostaglandin synthetase inhibition, underscore the multifactorial nature of the derangement. It is likely that the development of impaired renal water handling is attributable to a panoply of several hormonal or neural mediators, or both, acting in concert. Additional insight into this fascinating problem must await further characterization of some of the mediators and a delineation of their pathophysiologic role.

Plasma arginine vasopressin in hyponatraemic patients receiving diuretics

Random estimations of plasma arginine vasopressin concentration were undertaken in 6 non-oedematous patients receiving diuretic therapy for hypertension, who were admitted to hospital with severe hyponatraemia. Hyponatraemia resolved within 2 weeks of discontinuing the diuretic. Measurable amounts of plasma arginine vasopressin were detected in all 6 patients. Sequential biochemical measurements in one patient, performed when plasma sodium concentration and osmolality were returning to the normal range, disclosed that urine osmolality remained higher than plasma osmolality during the first 5 days, when urine volume and sodium excretion were low. Thus the rise in plasma sodium was not initially related to water diuresis. The ability to excrete a water load was severely limited on the fifth day, but improved progressively by the tenth and seventeenth days. Diuretic-induced hyponatraemia is associated with incomplete suppression of anti-diuretic hormone secretion arising from non-osmotic stimulation, in conjunction with transient impairment of renal diluting ability which could be due to net sodium deficit.

Defective renal water excretion in nephrotic syndrome: the relationship between renal water excretion and kidney function, arginine vasopressin, angiotensin II and aldosterone in plasma before and after oral water loading

An oral water load of 20 ml (kg body wt)-1 was given to seventeen patients with the nephrotic syndrome and fifteen healthy control subjects. Diuresis (D), free water clearance (CH2O), plasma concentrations of arginine vasopressin (AVP), angiotensin II (AII) and aldosterone (Aldo) were determined before and 3 times during the first 4 h after loading. In the nephrotic syndrome D was significantly lower 1-2 h after loading than in the control subjects, predominantly due to a lower CH2O (2.61 and 7.01 ml min-1 (medians), P less than 0.01). Creatinine clearance and the maximum increase in CH2O were significantly correlated in patients with the nephrotic syndrome (rho = 0.721, n = 17, P less than 0.01) and the control subjects (rho = 0.596, n = 15, P less than 0.01). AVP was reduced in both groups during loading, but AVP was clearly elevated in the patients with the nephrotic syndrome when compared to the control subjects both before (3.0 and 1.9 pmol 1(-1), P less than 0.01) and during loading. There was a significantly negative correlation between CH2O and AVP in both groups. AII and Aldo were reduced during loading, but the levels were the same in the patients and in the control group, and AII and Aldo were not correlated to CH2O. It is concluded that patients with the nephrotic syndrome excrete an oral water load more slowly than healthy control subjects, and that this phenomenon partly is due to reduced glomerular filtration rate and partly to increased AVP.

Evidence that renal prostaglandins are involved in renal water metabolism in cirrhosis

Plasma antidiuretic hormone (ADH) and urinary prostaglandin E2 excretion (UPGE2V) were measured in basal conditions, after water restriction, and after water-loading in 10 normal subjects (free water clearance after the water load, CH2O, 9.6 +/- 0.8 ml/min) and in 27 patients with cirrhosis and ascites (13 with a positive CH2O: 3.6 +/- 0.5; 14 with a negative CH2O: -0.37 +/- 0.007). Plasma ADH and UPGE2V were significantly increased in patients with a positive CH2O as compared with normal subjects. Patients with a negative CH2O showed a significantly higher plasma ADH and a lower UPGE2V and GFR than did normal subjects and patients with the positive CH2O. In 18 additional subjects (6 normal and 12 with cirrhosis, ascites, and a positive CH2O) submitted to a sustained water overload, the i.v. administration of 450 mg of lysine acetylsalicylate (LAS) induced a marked reduction of UPGE2V, but it had no effect on plasma ADH. LAS did not alter GFR and CH2O in normal subjects; however, it reduced CH2O in all the 12 patients (from 5.1 +/- 0.4 to 0.6 +/- 0.3) and the GFR in only 6 of these patients. These results suggest (a) that renal PGE2 plays an important role in the maintenance of water excretion in cirrhosis with ascites, and (b) that impaired ability to dilute the urine in cirrhosis may be a consequence of the simultaneous occurrence of impaired renal hemodynamics, nonostomic hypersecretion of ADH, and reduced renal production of PGE2.

Effect of short-term bile duct ligation on peripheral blood steroids, urinary PGE2 and the rate of sodium excretion in male rabbits

Short-term bile duct ligation in male rabbits resulted in a significant reduction in the rate of sodium excretion after saline challenge (10 ml/kg/hr for 4 hr, P less than 0.03). The reduction in the sodium excretory rate (14.3 +/- 7.8 to 6.3 +/- 5 mu-equiv/min, P less than 0.03) was associated with an increased urinary PGE2 excretion (200.9 +/- 174 to 731.8 +/- 1039.8 pg/min, P less than 0.01) without significant change in serum aldosterone and cortisol concentrations. Serum progesterone concentration increased (37.2 +/- 15.6 to 119.2 +/- 34.6 ng/dl, P less than 0.01) whereas serum 17-hydroxyprogesterone concentration declined after bile duct ligation suggesting the development of a 17-hydroxylase enzymatic block.

Renal sodium retention in liver disease

These discussions are selected from the weekly staff conferences in the Department of Medicine, University of California, San Francisco. Taken from transcriptions, they are prepared by Drs Homer A. Boushey, Associate Professor of Medicine, and David G. Warnock, Associate Professor of Medicine, under the direction of Dr Lloyd H. Smith, Jr, Professor of Medicine and Chairman of the Department of Medicine. Requests for reprints should be sent to the Department of Medicine, University of California, San Francisco, School of Medicine, San Francisco, CA 94143.

Renal effects of aminophylline in hepatic cirrhosis

In 18 cirrhotics with impaired renal perfusion intravenous injection of aminophylline 3 mg/kg b.w. increased mean renal blood flow (133-Xenon washout) from 1.77 +/- 0.71 to 1.99 +/- 0.44 ml/g/min (p less than 0.01). No significant change in cardiac output was found. In a further 10 cirrhotic patients the administration of aminophylline 3 mg/kg decreased the mean tubular reabsorption of sodium in the proximal section of the nephron (distal delivery) from 10.5 +/- 6.2 to 16.3 +/- 16.5 (p less than 0.01). Free-water production increased as a consequence of the increased supply of sodium to the diluting segment. Thus, aminophylline acts favourably on the functional renal impairment that occurs in hepatic cirrhosis.

Pathogenesis of sodium and water retention in edematous disorders

Edema is a collection of fluid within the body's interstitial space which occurs when there is an alteration of the Starling forces which control transfer of fluid from the vascular compartment to surrounding tissue spaces. Generalized edema results when altered Starling forces affect all capillary beds, such as occurs in cardiac failure, cirrhosis, and nephrotic syndrome. Common to these conditions is the development of increased total body sodium and water content. The kidneys play an essential role in the retention of this sodium and water. In this article we shall discuss the signals the kidneys receive for sodium and water retention in these edematous disorders (afferent mechanisms). We shall also examine the means by which the kidney responds to these signals and retains sodium and water (efferent mechanisms). As shall become apparent these edematous states may share many of the same afferent and efferent mechanisms for sodium and water retention.

Disorders of urinary concentration and dilution

A new approach to the classification of disorders of urinary concentration and dilution is recommended based on recent studies of how the kidney elaborates a urine of widely varying osmolality. The capacity to concentrate urine depends on ft, the fractional reabsorption of solute delivered to the loop of Henle; fu, the excretion of solute relative to the sum of solute excretion and solute delivery to Henle's loop; fw, the fraction of solute loss by vascular outflow from the medulla relative to that reabsorbed by the loop; and finally, collecting duct response to antidiuretic hormone (ADH). A decrease in ft or in increased fu or fw will diminish urinary concentrating ability, as will resistance of the tubule to ADH. Conversely, urinary dilution depends on the delivery of sodium and water to the ascending limb; NaCl reabsorption by the ascending limb; and the absence of ADH. A decrease in sodium and water delivery to the ascending limb or in NaCl reabsorption by the ascending limb will impair urinary diluting ability, as will the presence of ADH. The consequences of disorders in urinary concentrating and diluting ability vary widely. In an alert patient with an intact thirst center, there may be no consequence; in a patient unable to communicate thirst or whose thirst center is deranged, the results may be catastrophic. Keeping in mind the kidney's few basic requirements for formation of concentrated or dilute urine may help the physician avoid these potentially serious dislocations of water balance.

Body fluid homeostasis in congestive heart failure and cirrhosis with ascites

The urinary excretion of salt and water in man is regulated by a variety of renal and extrarenal mechanisms that respond to changes in dietary sodium intake as well as to alterations in the holding capacity of the vascular and interstitial compartments. Changes in extracellular fluid volume are detected by volume sensors located in the intrathoracic vascular bed, the kidney and other organs. These sensing mechanisms gauge the adequacy of intravascular volume relative to capacitance at various sites within the circulation. Congestive heart failure and cirrhosis with ascites are two disease states of man in which a hemodynamic disturbance within a given circulatory subcompartment is perceived by these sensing mechanisms and results in renal sodium retention. While the primary disturbance in both of these conditions originates outside the kidney, a variety of renal effector mechanisms respond to the perceived circulatory disturbance and result in enhanced tubule reabsorption of salt and water. These effector mechanisms involve physical adjustments in renal microvascular hemodynamics, tubule fluid composition and flow rate and transtubular ion gradients. These in turn are partially regulated by a variety of neural and humoral pathways including the renin-angiotensin-aldosterone axis, prostaglandins, and kinins.