Effects of isosorbide dinitrate on portal hypertension in alcoholic cirrhosis

It has recently been reported that vasodilators lower portal pressure in patients with cirrhosis. This effect, however, is not definitively proven. The effect of isosorbide dinitrate (5 mg sublingually) on splanchnic and systemic hemodynamics was investigated in 13 patients with alcoholic cirrhosis and portal hypertension. The administration of isosorbide dinitrate reduced hepatic venous pressure gradient by 34% (P less than 0.001), mean arterial pressure by 30% (P less than 0.001), cardiac index by 17% (P less than 0.001) and systemic vascular resistance by 11% (P = 0.05). Hepatic blood flow was not affected by the treatment. Significant correlations were found between the decrease in hepatic venous pressure gradient and that of cardiac index (P less than 0.05) and mean arterial pressure (P less than 0.05). These data indicate that isosorbide dinitrate lowers portal pressure in patients with cirrhosis. Decrease in cardiac output, rise in splanchnic arterial vascular resistance and decrease in porto-hepatic resistance seem to participate in determining the effect.     

Combination of ketanserin and verapamil or propranolol in patients with alcoholic cirrhosis: search for an additive effect

Drugs reported to reduce portal pressure through different mechanisms were combined in the hope of either additive portal hypotensive effects in "responders," or inducing a portal hypotensive effect in "nonresponders" to the initial drug. Seven patients with alcoholic cirrhosis received verapamil, 10 mg i.v., and, 60 min later, ketanserin, 5 mg i.v. Verapamil decreased heart rate and increased free hepatic venous pressure but had no effect on hepatic venous pressure gradient or azygos blood flow. When combined with verapamil, ketanserin significantly diminished wedged hepatic venous pressure and hepatic venous pressure gradient. Ten other patients with alcoholic cirrhosis received propranolol, 15 mg i.v., and 45 min later, ketanserin, 5 mg i.v. In all patients, heart rate, cardiac index and azygos blood flow significantly decreased after propranolol. After propranolol alone, however, wedged hepatic venous pressure decreased in only five patients, responders. In five other patients, defined as nonresponders, propranolol did not decrease this pressure. The addition of ketanserin to propranolol induced further significant reduction in wedged hepatic venous pressure, hepatic venous pressure gradient and azygos blood flow. Among the five nonresponders, three had a reduced wedged hepatic venous pressure after ketanserin was combined. We conclude that verapamil does not reduce portal pressure or collateral blood flow in patients with alcoholic cirrhosis. The splanchnic hemodynamic effects of propranolol and ketanserin appear to be independent and additive, without significant systemic alteration.     

Effects of Dobutamine on Hepatosplanchnic Hemodynamics in Patients with Chronic Liver Disease

Kawasaki T, Moriyasu F, Kimura T, Someda H, Hamato N, Okuma M. Effects of dobutamine on hepatosplanchnic hemodynamics in patients with chronic liver disease. Scand J Gastroenterol 1994; 29:1044-1054.

Background: It is said that catecholamines increase hepatic blood flow in patients without liver diseases, although several reports have suggested a blunted response to catecholamines in patients with liver cirrhosis.

Methods: We investigated changes in splanchnic blood flow distribution induced by the infusion of dobutamine into peripheral veins of healthy adults (NC group), patients with chronic hepatitis (CH group), and patients with liver cirrhosis (LC group), using a Doppler duplex system (protocol 1). We also investigated changes in hepatic hemodynamics induced by dobutamine infusion in patients with liver cirrhosis (cirrhosis group) and patients without liver diseases (control group), using hepatic catheterization (protocol 2).

Results: In protocol 1 the average increase in portal venous blood flow during dobutamine infusion was significant in the NC and CH groups but was not significant in the LC group. Changes in the blood flow in the splenic artery and vein, superior mesenteric artery and vein, and femoral artery were similar to those in the portal vein in each of the three groups. Infusion did not cause a change in the common hepatic arterial flow in any of the three groups. In protocol 2 the portal venous flow, cardiac index, and hepatic venous pressure gradient increased significantly during dobutamine infusion in both the cirrhosis and the control groups. Hepatic vascular resistance in the cirrhosis group increased slightly, whereas, in contrast, that in the control group increased significantly. The rate of change in almost all variables was lower in the cirrhosis group than in the control group.

Conclusion: These results indicate that dobutamine has less effect on hepatic circulation in patients with liver cirrhosis than in those without liver diseases, indicating that the value of dobutamine in increasing hepatic blood flow in cirrhotic patients is very limited.     

Effects of nifedipine on hepatic venous pressure gradient and portal vein blood flow in patients with cirrhosis

Abstract We investigated the effects of nifedipine on splanchnic haemodynamics in 13 patients with cirrhosis and portal hypertension, and in 10 control subjects using hepatic venous catheterization and pulsed Doppler ultrasound. There were no significant changes in systemic or splanchnic haemodynamics in control patients. In contrast, systemic vascodilatation, evidenced by significant decreases in mean arterial pressure and systemic vascular resistance, was observed in patients 20 min after sublingual application of 10 mg nifedipine. Moreover, hepatic venous pressure gradient and portal vein blood flow significantly increased after nifedipine administration. There was a significant correlation between the percentage increases in portal vein blood flow and in hepatic venous pressure gradient. However, no correlation was found between the percentage change in cardiac output and that in portal vein blood flow. Thus the increase in portal vein blood flow appears to be related to splanchnic arterial vasodilatation by nifedipine. Consequently, nifedipine has deleterious effects on portal haemodynamics in patients with cirrhosis. As nifedipine may potentially increase the risk of variceal haemorrhage in patients with less advanced varices, this drug should be used with caution in patients with chronic liver disease.     

Hepatic arterial pulsatility index in cirrhosis: correlation with portal pressure.

BACKGROUND/AIMS: Determination of the pulsatility index by means of duplex sonography provides the opportunity to evaluate the vascular resistance of the hepatic artery noninvasively. The aim of this study was to investigate the relationship between the hepatic arterial pulsatility index and the hepatic venous pressure gradient in cirrhosis. METHODS: In 50 patients with cirrhosis, hepatic venous pressure gradient was determined in the fasting state. Immediately thereafter, hepatic arterial pulsatility index and portal blood flow velocity were measured by duplex sonography with no knowledge of hepatic venous pressure values. In addition, the duplex parameters were determined in 20 controls. RESULTS: Hepatic arterial pulsatility index was significantly higher in patients with cirrhosis than in controls (0.92+/-0.1 vs. 1.14+/-0.18; p<0.001) and directly correlated with the hepatic venous pressure gradient (r = 0.7; p<0.001). Furthermore, weak correlations were found between hepatic arterial pulsatility index and Child-Pugh score (r = 0.49; p<0.01) and between portal blood flow velocity and hepatic venous pressure gradient (r = -0.48; p<0.01). CONCLUSION: In cirrhosis the hepatic arterial vascular resistance seems to increase parallel to the rise of the portal pressure. Therefore, duplex sonographic determination of the hepatic arterial pulsatility index may contribute to the noninvasive evaluation of portal hypertension.     

Systemic and splanchnic hemodynamic effects of molsidomine in rats with carbon tetrachloride-induced cirrhosis

Molsidomine, a long-acting vasodilator mainly used as an antianginal agent, was reported to decrease the portohepatic venous pressure gradient in patients with alcoholic cirrhosis. This study investigated the effects of linsidomine, the active metabolite of molsidomine, on systemic and splanchnic hemodynamics in rats with CCl4-induced cirrhosis using the microsphere technique. Compared with placebo-treated rats, linsidomine-treated animals were found to have a significant decrease in portal venous pressure (-18%, p less than 0.01) and in mean arterial pressure (-16%, p less than 0.01), smaller peripheral resistances (p less than 0.01), greater portal venous inflow (p less than 0.05), smaller splanchnic arteriolar resistances (p less than 0.01) and smaller protocol-lateral resistances (p less than 0.05). Cardiac output, hepatic arterial blood flow, portal blood flow and estimated hepatic blood flow were not significantly different between the two groups of animals. Linsidomine-treated rats exhibited a trend toward greater collateral blood flow compared with controls, but this difference was not significant. We conclude that linsidomine decreases portal venous pressure by reducing portocollateral resistances without affecting liver blood flow. These effects should be beneficial for patients with cirrhosis and portal hypertension.     

Peculiar characteristics of portal-hepatic hemodynamics of alcoholic cirrhosis

Alcohol-related cirrhosis is a consequence of heavy and prolonged drinking. Similarly to patients with cirrhosis of other etiologies, patients with alcoholic cirrhosis develop portal hypertension and the hepatic, splanchnic and systemic hemodynamic alterations that follow. However, in alcoholic cirrhosis, some specific features can be observed. Compared to viral cirrhosis, in alcohol-related cirrhosis sinusoidal pressure is generally higher, hepatic venous pressure gradient reflects portal pressure better, the portal flow perfusing the liver is reduced despite an increase in liver weight, the prevalence of reversal portal blood flow is higher, a patent paraumbilical vein is a more common finding and signs of hyperdynamic circulations, such as an increased cardiac output and decreased systemic vascular resistance, are more pronounced. Moreover, alcohol consumption can acutely increase portal pressure and portal-collateral blood flow. Alcoholic cardiomyopathy, another pathological consequence of prolonged alcohol misuse, may contribute to the hemodynamic changes occurring in alcohol-related cirrhosis. The aim of this review was to assess the portal-hepatic changes that occur in alcohol-related cirrhosis, focusing on the differences observed in comparison with patients with viral cirrhosis. The knowledge of the specific characteristics of this pathological condition can be helpful in the management of portal hypertension and its complications in patients with alcohol-related cirrhosis.     

Discrepancy between wedged hepatic venous pressure and portal venous pressure after acute propranolol administration in patients with alcoholic cirrhosis

In patients with alcoholic cirrhosis, wedged hepatic venous pressure closely reflects portal venous pressure. This study was carried out to determine if propranolol-induced reductions in portal venous pressure are accurately evaluated by the measurement of wedged hepatic venous pressure. Hepatic venous cannulation and percutaneous transhepatic catheterization of the portal vein were simultaneously performed in 7 patients with alcoholic cirrhosis. One hour after oral administration of 40 mg of propranolol, wedged hepatic and portal venous pressures significantly decreased from 24.3 +/- 3.5 (mean +/- SD) to 19.0 +/- 3.0 mmHg, and from 24.7 +/- 3.9 to 22.4 +/- 3.6 mmHg, respectively. Although no significant difference was found between baseline wedged hepatic and portal venous pressures, a significant difference was found between these pressures after propranolol administration. We concluded that during acute administration of a drug acting on the splanchnic circulation, the measurement of wedged hepatic venous pressure may not provide a reliable estimation of the magnitude of the changes in portal venous pressure. There is, however, no evidence that the direction of the changes might not be adequately assessed by wedged hepatic venous pressure measurement.     

Hemodynamic effects of a combination of prazosin and terlipressin in patients with viral cirrhosis

OBJECTIVES: Terlipressin reduces portal pressure in cirrhotic patients mainly through intense splanchnic vasoconstriction that decrease portal venous inflow. Hepatic blood flow may also be reduced by terlipressin. Prazosin (an alpha1-adrenoceptor antagonist) has also been proposed to decrease portal pressure in cirrhotic patients possibly through a decrease in the intrahepatic vascular resistance. The current study was aimed to evaluate whether a combination of prazosin and terlipressin exerts more beneficial effects than terlipressin alone. METHODS: Patients were randomly assigned to receive either a placebo (n = 12) or an oral administration of prazosin 2 mg (n = 12). Thereafter, each patient received an intravenous injection of terlipressin 2 mg. Hemodynamic values were measured basally, 30 min after prazosin or placebo, and 30 min after terlipressin. RESULTS: Placebo administration did not affect any hemodynamic values. Terlipressin administration, on the other hand, resulted in expected changes on the hepatic venous pressure gradient, hepatic blood flow, and systemic hemodynamics. In contrast, prazosin significantly decreased hepatic venous pressure gradient with an increased hepatic blood flow and intrinsic hepatic clearance. After terlipressin administration, a further decrease in hepatic venous pressure gradient was observed with preservation of hepatic blood flow and intrinsic hepatic clearance. The magnitude of decrease in hepatic venous pressure gradient was more profound in patients receiving prazosin plus terlipressin than in those receiving terlipressin alone. However, the magnitude of changes in systemic hemodynamics was no different between the two groups of patients. CONCLUSIONS: The current study showed that a combination of prazosin and terlipressin resulted in a more profound reduction of hepatic venous pressure gradient with a preservation of hepatic blood flow and intrinsic hepatic clearance than did terlipressin alone. However, the combined therapy did not modify the systemic hemodynamic effects exerted by terlipressin.     

Long-term hemodynamic effects of ketanserin, a 5-hydroxytryptamine blocker, in portal hypertensive patients

Ketanserin, a 5-hydroxytryptamine-2 receptor blocker, has been shown to decrease portal pressure in recent acute hemodynamic studies that have been performed both in experimental animals and portal hypertensive patients. The present study was designed to investigate the effects of chronic oral administration of ketanserin in portal hypertensive patients with cirrhosis. The mean baseline hepatic venous pressure gradient in the 13 patients with alcoholic cirrhosis who completed the study was 15.7 +/- 2.7 mmHg. It decreased significantly to 13.3 +/- 2.0 mmHg (p less than 0.001) after ketanserin was administered at a mean dose of 51 mg per day for a mean period of 32 days. This 14.6% reduction in hepatic venous pressure gradient resulted mainly from a decrease in mean wedged hepatic venous pressure (from 22.2 +/- 4.0 to 20.1 +/- 3.6 mmHg) and was accompanied by significant decreases in cardiac index (18.8%) and in mean arterial pressure (8.1%). However, changes in cardiac index or in mean arterial pressure were not predictive of modifications in the hepatic venous pressure gradient. Eight of 16 patients entered in the study developed side effects, the most significant being a reversible portosystemic encephalopathy, which occurred in three patients who had poor liver function. This study confirms evidence in favor of a role for 5-hydroxytryptamine in portal hypertension and adds a new group of agents for the chronic treatment of portal hypertensive patients.(ABSTRACT TRUNCATED AT 250 WORDS)     

Portal and splenic hemodynamics in cirrhotic patients: relationship between esophageal variceal bleeding and the severity of hepatic failure

Background The relationship between portal and splenic vein hemodynamics, liver function, and esophageal variceal bleeding in patients with cirrhosis remains unclear. The aim of the present study was to investigate quantitative Doppler parameters of splanchnic hemodynamics in cirrhotic patients and to determine the value of the Doppler parameters in predicting esophageal variceal bleeding.Methods With the help of pulsed Doppler ultrasonography, we investigated portal and splenic hemodynamics in 18 healthy controls and in 45 patients with liver cirrhosis, in whom the relationship of splenic hemodynamics with esophageal variceal bleeding and the grade of cirrhosis was examined.Results Portal flow velocity was decreased in cirrhotic patients with Childs C cirrhosis, as compared to those with Childs A cirrhosis (P < 0.001). The portal blood flow volume in Childs C cirrhosis were also significantly low compared to patients with Childs A and Childs B cirrhosis (P < 0.001 and P < 0.05, respectively). There was a significant increase in the portal vein congestion index and splenic vein congestion index in patients with Childs C cirrhosis as compared to patients with Childs A cirrhosis (P < 0.001). Among cirrhotic patients, the group with esophageal variceal bleeding had significantly greater splenic blood flow volume and splenic vein congestion index (P < 0.001). Patients with ascites had significantly lower portal flow velocity (P < 0.001) and higher portal vein congestion index and splenic vein congestion index (P = 0.003 and P = 0.05, respectively) as compared to those without ascites.Conclusions In this report we have shown that the decrease in blood flow and increased congestion indexes in the portal vein and splenic vein are related to the impairment of liver function in cirrhotic patients; these indexes may be valuable factors for predicting esophageal variceal bleeding.     

Postprandial changes in portal haemodynamics in patients with cirrhosis.

Previous studies have shown that portal venous pressure increases in patients with cirrhosis after a protein meal. Since this increase may be mediated by an increase in hepatic blood flow or postsinusoidal hepatic vascular resistance, the present study was designed to examine the precise relation between the postprandial changes in these three variables in patients with cirrhosis and portal hypertension. Estimated hepatic blood flow (EHBF; indocyanine green clearance), portosystemic gradient (PSG; wedged free hepatic venous pressure), and postsinusoidal hepatic vascular resistance (PSR = PSG/EHBF) were measured simultaneously before and at 10 minute intervals after a high protein meal, containing 80 g protein, 40 g carbohydrate and 12 g fat (600 kcal) in nine patients (seven alcoholic, two non-alcoholic) with cirrhosis and portal hypertension. After the meal, the portosystemic gradient increased by 33% from mean (SEM) 15.6 (0.9) mm Hg to 20.7 (1.3) mm Hg, (p less than 0.01; Wilcoxon signed ranks test) within 30 minutes. Coincident with this increase in portosystemic gradient, estimated hepatic blood flow increased by 69.2% from 20.1 (1.7) ml/min/kg to 33.9 (2.5) ml/min/kg (p = 0.01), peak values occurring at 25 minutes, at which time the postsinusoidal hepatic vascular resistance had decreased by 31% from 1.10 (0.1) 10(-2) mm Hg/ml/min to 0.8 (0.5) 10(-2) mm Hg/ml/min (p = 0.01). These results suggest that the postprandial increase in portal venous pressure in patients with cirrhosis is mediated by an increase in hepatic blood flow and modified by a simultaneous decrease in postsinusoidal resistance.     

Simvastatin enhances hepatic nitric oxide production and decreases the hepatic vascular tone in patients with cirrhosis

BACKGROUND & AIMS: In cirrhosis, an insufficient release of nitric oxide contributes to increased hepatic resistance and portal pressure and enhances the postprandial increase in portal pressure. We hypothesized that simvastatin, which enhances Akt-dependent endothelial nitric oxide synthase phosphorylation, may increase hepatic nitric oxide release and decrease hepatic resistance in patients with cirrhosis and portal hypertension. METHODS: In protocol 1, 13 patients had measurements of the hepatic venous pressure gradient, hepatic blood flow, mean arterial pressure, cardiac output, and nitric oxide products before and 30 and 60 minutes after 40 mg of simvastatin. In protocol 2, 17 patients were randomized to receive placebo or simvastatin (40 mg) 12 hours and 1 hour before the study. After baseline measurements of the hepatic venous pressure gradient, hepatic blood flow, and nitric oxide products, a standard liquid meal was given, and measurements were repeated at 15, 30, and 45 minutes. RESULTS: In protocol 1, acute simvastatin did not modify the hepatic venous pressure gradient but increased the hepatic blood flow (21% +/- 13% at 30 minutes; P = 0.01) and decreased hepatic sinusoidal resistance by 14% +/- 11% (P = 0.04). Nitric oxide product levels significantly increased in hepatic venous blood (from 31.4 +/- 12.3 nmol. mL(-1) to 35.8 +/- 10.7 nmol. mL(-1); P = 0.04), but not in peripheral blood. Systemic hemodynamics were not modified. In protocol 2, simvastatin pretreatment significantly attenuated the postprandial increase in hepatic venous pressure gradient (mean peak increase, 10% +/- 9% vs. 21% +/- 6% in placebo; P = 0.01). Hepatic blood flow increased similarly in the 2 groups. Hepatic nitric oxide products increased in the simvastatin group but not in the placebo group. CONCLUSIONS: Simvastatin administration increases the hepatosplanchnic output of nitric oxide products and decreases hepatic resistance in patients with cirrhosis.     

Short-term effects of propranolol on portal venous pressure

The present study was designed to investigate the effect of propranolol on portal pressure of patients with alcoholic cirrhosis and portal hypertension and to correlate these effects with clinical and laboratory parameters. The mean baseline hepatic venous pressure gradient in the 50 patients studied was of 18.2 +/- 4.1 mm Hg. It decreased significantly 2 hr after the oral administration of 40 mg of propranolol to 15.7 +/- 4.2 mm Hg (a mean reduction of 13.4 +/- 17%). This reduction in hepatic venous pressure gradient resulted mainly from a decrease in mean wedged hepatic venous pressure. There was no correlation between the decrease in hepatic venous pressure gradient and the decrease in heart rate. When results were analyzed individually, only 15 (30%) showed a large decrease in hepatic venous pressure gradient (greater than 20%), 15 (30%) showed a moderate decrease (10 to 19%), and in 20 patients (40%) there was no reduction or an increase in hepatic venous pressure gradient. Comparison of "responders" (those that reduced hepatic venous pressure gradient greater than 10%) and "nonresponders" (hepatic venous pressure gradient reduction less than 10%) showed no significant differences in baseline laboratory and hemodynamic parameters, in the severity of the liver disease, in the heart rate and blood pressure response to propranolol, nor in the propranolol plasma levels achieved 2 hr after propranolol administration. Propranolol plasma levels correlated with the reduction in heart rate but not with the reduction in hepatic venous pressure gradient. Of 14 nonresponders to 40 mg of propranolol who received additional doses, six showed a reduction in hepatic venous pressure gradient.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of molsidomine, a long acting venous dilator, on portal hypertension. A hemodynamic study in patients with cirrhosis.

The present study investigated the effects of molsidomine, a predominant venous dilator which, contrary to organic nitrates, does not produce pharmacological tolerance on splanchnic and systemic hemodynamics in patients with cirrhosis. Twenty-seven cirrhotic portal hypertensive patients were studied prior to and up to 2 h after the oral administration of 2 mg of molsidomine (n = 11), 4 mg of molsidomine (n = 8) or placebo (n = 8). Molsidomine caused a significant reduction in the hepatic venous pressure gradient. The mean decrease at 60 min was -6.8 +/- 9% after 2 mg (p less than 0.05) and -15.4 +/- 12% after 4 mg (p less than 0.01). The decrease in the hepatic venous pressure gradient was maintained at 120 min: -11% after 2 mg (p less than 0.05) and -19% with 4 mg (p less than 0.01). This was associated with mild changes in azygos blood flow and with a significant decrease in hepatic blood flow (-17%, p less than 0.05). There was a moderate reduction in mean arterial pressure (-12.6% after 2 mg and -13.2% after 4 mg, p less than 0.01), which was due to a reduction in cardiac output, without any significant fall in systemic vascular resistance. Placebo administration did not change systemic or hepatic hemodynamics. This study shows that molsidomine causes a significant and sustained reduction in portal pressure in patients with cirrhosis, suggesting the potential role of this agent in the treatment of portal hypertension.     

Acute effect of propranolol on splanchnic circulation in normal and portal hypertensive rats

Propranolol decreases portal venous pressure in patients with cirrhosis but no method is available in man to study the effect of this beta-blocker on splanchnic organ blood flow. Because in rats, the microsphere method allows evaluation of regional blood flow, the acute effect of propranolol on both splanchnic and systemic circulations was studied in normal rats and in rats with portal hypertension due to portal vein stenosis. Portal venous pressure significantly decreased during propranolol administration in normal (5.6 +/- 1.0-4.7 +/- 1.1 mm Hg; mean +/- SD) as well as in portal hypertensive rats (11.7 +/- 2.3-10.3 +/- 1.8 mm Hg). Propranolol slightly decreased cardiac output and arterial pressure in all rats. Portal tributary blood flow was significantly reduced by propranolol in normal rats (17.4 +/- 3.0-11.3 +/- 2.2 ml/min) and in portal hypertensive rats (23.7 +/- 5.0-16.6 +/- 3.3 ml/min). Accordingly vascular resistance of the different organs in the portal venous territory increased in these rats receiving propranolol. The percentage of the decrease in portal tributary blood flow was significantly more marked than the percentage of reduction in cardiac output in portal hypertensive rats but, in normal rats, these percentages were parallel. Hepatic arterial blood flow did not change or slightly increased and, consequently, hepatic arterial vascular resistance decreased. These findings further clarify the marked effects of propranolol on splanchnic circulation.     

Hemodynamic study during transdermal application of nitroglycerin tape in patients with cirrhosis

We studied 14 patients with portal hypertension and cirrhosis using portal and hepatic vein catheterizations to determine the effects of transdermal application of nitroglycerin tape (containing 10 mg of nitroglycerin and capable of releasing 6 to 7 mg of nitroglycerin in 12 hr) on splanchnic hemodynamics. Patients randomly received nitroglycerin (n = 7) or a placebo (n = 7). No significant changes were observed after the administration of the placebo. In contrast, transdermal nitroglycerin caused a significant reduction in portal pressure, as evaluated by measurements of the portal venous pressure gradient (-22%, p less than 0.01). The reduction of portal pressure was due to a decrease in the portal venous pressure, with no changes in the free hepatic venous pressure. Despite the fall in portal pressure, the hepatic blood flow was maintained. These findings suggest that transdermal nitroglycerin could be potentially useful in the treatment of portal hypertension associated with cirrhosis.     

Vasopressin and vasopressin plus nitroglycerin for portal hypertension. Effects on systemic and splanchnic hemodynamics and coronary blood flow

We measured the coronary, systemic, and splanchnic effects of vasopressin and vasopressin plus nitroglycerin in 8 stable patients with alcoholic cirrhosis. Vasopressin (0.1-0.8 U/min) increased pressure in the hepatic vein, pulmonary artery and pulmonary capillaries. Wedged hepatic (portal) vein pressure was unchanged; the hepatic venous pressure gradient (wedged-free hepatic vein pressure) fell. Insignificant declines occurred in cardiac output, gastroesophageal collateral (azygous) blood flow, hepatic blood flow and coronary sinus (cardiac) blood flow. The addition of nitroglycerin (40-70 micrograms/min) reduced pressure in the hepatic vein, pulmonary artery and pulmonary capillaries, while increasing the hepatic venous pressure gradient. Wedged hepatic vein pressure did not change. Gastroesophageal collateral (azygous) flow increased markedly; cardiac output rose to a lesser degree. Coronary sinus and hepatic blood flow did not change. Nitroglycerin ameliorated the increases in systemic and pulmonary artery pressure produced by vasopressin but also tended to reverse the decline in the hepatic venous pressure gradient and markedly increased gastroesophageal flow. Neither drug significantly affected coronary blood flow.     

Effect of somatostatin on splanchnic hemodynamics in patients with liver cirrhosis and portal hypertension

The effect of somatostatin on splanchnic hemodynamics in patients with liver cirrhosis is not clearly defined, as some authors report a decrease in portal pressure and in liver blood flow during intravenous administration of this hormone, while others do not. In 19 subjects with liver cirrhosis and portal hypertension the following parameters were measured before and during intravenous administration of somatostatin (7.5 micrograms/min): porto-hepatic gradient, estimated hepatic blood flow, specific splenic blood flow, cardiac index. Estimated hepatic blood flow decreased significantly during somatostatin infusion (p less than 0.05), averaging a 13% decrease; porto-hepatic gradient, splenic specific blood flow and cardiac index did not vary significantly. These data indicate that somatostatin infused at a dose of 7.5 micrograms/min induces a slight decrease in liver blood flow without affecting portal hypertension.     

Comparison of Doppler ultrasonography and the hepatic venous pressure gradient in assessing portal hypertension in liver cirrhosis

BACKGROUND AND AIM: This prospective study aimed to determine whether Doppler ultrasonography can represent the hepatic venous pressure gradient (HVPG) as an assessment of the severity of portal hypertension and the response to terlipressin, which reduces the portal pressure in liver cirrhosis. METHODS: The HVPG and the Doppler ultrasonographic parameters, such as the portal venous velocity and the splenic venous velocity, the pulsatility and the resistive index of the hepatic, splenic and renal arteries were measured in 138 patients with liver cirrhosis. The changes in the HVPG and the portal venous velocity after administering terlipressin were evaluated in 43 of the 138 patients. The patients who showed a reduction in the HVPG of more than 20% of the baseline were defined as responders to terlipressin. RESULTS: None of the Doppler ultrasonographic parameters correlated with the HVPG. Both the HVPG (28.0 +/- 19.8%) and the portal venous velocity (29.7 +/- 13.2%) showed a significant reduction after terlipressin administration. However, the portal venous velocity decreased significantly, not only in the responders (31.0 +/- 12.0%) but also in the non-responders (25.2 +/- 16.4%). CONCLUSIONS: Doppler ultrasonography does not represent the HVPG, and is therefore not suitable for replacing HVPG as a means of assessing the severity of portal hypertension and the response to drugs which reduce the portal pressure in liver cirrhosis.