Hemodynamic Effects of a Combination of Octreotide and Terlipressin Patients with Viral Hepatitis Related Cirrhosis

Background: Terlipressin or octreotide given alone has been used as the first-line pharmacological treatment for acute variceal bleeding. In portal hypertensive animals, pre-infusion of octreotide followed by the addition of terlipressin has an additive or complementary effect on splanchnic hemodynamics. The current study was aimed at evaluating such a combination treatment in patients with cirrhosis and portal hypertension. Methods: Patients were randomly assigned to receive either a placebo ( n = 11) or an intravenous infusion of octreotide 100 μg/h after an initial bolus of 100 μg ( n = 13). Thereafter, each patient received an intravenous injection of terlipressin 2 mg. Hemodynamic values were measured basally, 30 min after octreotide or placebo, and 60 min after terlipressin. Results: Placebo administration did not affect any of the hemodynamic values. Terlipressin administration resulted in expected changes in hepatic venous pressure gradient, hepatic blood flow and systemic hemodynamics. In contrast, octreotide administration significantly decreased hepatic blood flow but did not affect other hemodynamic values. After terlipressin administration, significant hemodynamic changes were observed that were similar to the hemodynamic changes with terlipressin alone. The magnitude of changes in hepatic venous pressure gradient, cardiac index and systemic vascular resistance were no different between the two groups of patients. The heart rate was significantly lower in patients receiving octreotide plus terlipressin than those receiving terlipressin alone. Conclusion: The current study showed that a combination of octreotide and terlipressin did not exert an additive effect in reducing hepatic venous pressure gradient in patients with cirrhosis. In addition, the systemic hemodynamic changes were comparable between the two groups.     

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.     

Hemodynamic effects of the administration of terlipressin alone or combined with nitroglycerin in patients with cirrhosis]

Terlipressin (Glypressin), a synthetic analog of vasopressin, induces arteriolar vasoconstriction which causes both a portal hypotensive effect and certain side-effects on the systemic circulation (elevated arterial pressure and reduced cardiac output). The combination of nitroglycerin with terlipressin might accentuate the portal hypotensive effect and prevent the side-effects on the systemic circulation. The aim of this study was to examine the systemic and splanchnic hemodynamic responses to terlipressin administered alone or combined with nitroglycerin in patients with cirrhosis. Systemic and splanchnic hemodynamics were measured before and 1 h after a bolus of terlipressin (1 to 2 mg IV) given alone (n = 10) or in association with nitroglycerin infusion (25 micrograms/min, n = 9). Terlipressin alone significantly increased the arterial pressure by 21%, systemic vascular resistance by 60%, and significantly decreased cardiac output by 23%. The right atrial and pulmonary pressures significantly increased and the wedged hepatic venous pressure and hepatic venous pressure gradient significantly decreased by 8% and 16%, respectively. The combined therapy decreased the cardiac output by 20%, but did not significantly modify the other systemic and splanchnic hemodynamic values. No significant differences were found between terlipressin and the combined therapy concerning changes in wedged hepatic venous pressure or hepatic venous pressure gradient. We conclude that in patients with cirrhosis, nitroglycerin prevents the deleterious vasoconstrictor and vasopressor effects of terlipressin. However, the combined therapy, as terlipressin alone, decreases the cardiac output.(ABSTRACT TRUNCATED AT 250 WORDS)     

Terlipressin is more effective in decreasing variceal pressure than portal pressure in cirrhotic patients

BACKGROUND/AIMS: Terlipressin decreases portal pressure. However, its effects on variceal pressure have been poorly investigated. This study investigated the variceal, splanchnic and systemic hemodynamic effects of terlipressin. METHODS: Twenty cirrhotic patients with esophageal varices grade II-III, and portal pressure > or =12 mmHg were studied. Hepatic venous pressure gradient, variceal pressure and systemic hemodynamic parameters were obtained. After baseline measurements, in a double-blind administration, 14 patients received a 2mg/iv injection of terlipressin and six patients received placebo. The same measurements were repeated 60 min later. RESULTS: No demographic or biochemical differences were observed in basal condition between groups. Terlipressin produced significant decreases in intravariceal pressure from 20.9+4.9 to 16.3+/-4.7 mmHg (p<0.01, -21+/- 16%), variceal pressure gradient from 18.9+/-4.8 to 13.5+/-6.0 mmHg (p<0.01, -28+/-27%), estimated variceal wall tension from 78+/-29 to 59+/-31 mmHg x mm (p<0.01, -27+/-22%), and hepatic venous pressure gradient from 19.4+/-4.5 to 16.8+/-5 mmHg (p<0.01, -14+/-12%) at 60 min. The change in variceal pressure after 60 min of terlipressin administration was greater than the change in wedge hepatic venous pressure (-4.7 mmHg vs -0.5 mmHg, respectively, p<0.0001). Terlipressin also caused significant decreases in heart rate and cardiac index and increases in mean arterial pressure and peripheral vascular resistance. CONCLUSIONS: Our results demonstrate that terlipressin produces significant and prolonged decreases in variceal pressure and variceal wall tension and has intrinsic effects on portal pressure and systemic hemodynamics. Variceal pressure provides a better assessment of the effects of terlipressin administration on esophageal varices than hepatic venous pressure gradient.     

Acute hemodynamic effects of octreotide and terlipressin in patients with cirrhosis: a randomized comparison

BACKGROUND: Octreotide and terlipressin are widely used in acute variceal hemorrhage to reduce the bleeding rate. They purportedly act by mesenteric arterial vasoconstriction, thus reducing portal venous flow (PVF) and portal pressure. Little is known about the immediate-early hemodynamic effects of these drugs. AIM: To compare the acute hemodynamic effects of octreotide and terlipressin in patients with cirrhosis. PATIENTS: Forty-two cirrhotic patients with a history of variceal bleeding were randomized to receive either octreotide 100 microg intravenous bolus followed by a continuous infusion at 250 microg/h (n = 21), or terlipressin 2 mg intravenous bolus (n = 21). METHODS: Mean arterial pressure (MAP), heart rate (HR), hepatic venous pressure gradient (HVPG), and PVF, assessed by duplex Doppler ultrasonography, were measured before and at 1, 5, 10, 15, 20, and 25 min after the start of drug administration. RESULTS: Octreotide markedly decreased HVPG (-44.5 +/- 17.8%) and PVF (-30.6 +/- 13.6%) compared to the baseline at 1 min (p < 0.05). Thereafter, both variables rapidly returned toward the baseline, and by 5 min, no significant differences in HVPG (-7.1 +/- 28.9%) and PVF (10.2 +/- 26.2%) were noted. A similar transient effect on MAP and HR was observed. Terlipressin significantly decreased HVPG (-18.3 +/- 11.9%) and PVF (-32.6 +/- 10.5%) at 1 min (p < 0.05) and sustained these effects at all time points. The effects on arterial pressure and HR were also sustained. CONCLUSIONS: Octreotide only transiently reduced portal pressure and flow, whereas the effects of terlipressin were sustained. These results suggest that terlipressin may have more sustained hemodynamic effects in patients with bleeding varices.     

Effects of somatostatin, terlipressin and somatostatin plus terlipressin on portal and systemic hemodynamics and renal sodium excretion in patients with cirrhosis

BACKGROUND AND AIM: Terlipressin and somatostatin are the most preferable agents for the control of variceal bleeding in cirrhotic patients. The present study evaluated the hemodynamic effects of somatostatin, terlipressin and somatostatin plus terlipressin in cirrhotic patients with portal hypertension, as well as the effect of each regimen on renal sodium excretion. METHODS: Twenty-four patients with esophageal varices were randomly assigned to receive either an intravenous infusion of a placebo (n = 12) or somatostatin 250 microg/h after an initial bolus of 250 microg (n = 12) for 60 min. Thereafter, each patient received an intravenous injection of terlipressin 2 mg while the intravenous infusion of either somatostatin or placebo was maintained. Portal and systemic hemodynamic parameters, assessed by Doppler sonography, and urinary sodium excretion were evaluated at baseline, 60 min after placebo or somatostatin, and 30 min after terlipressin. RESULTS: Placebo had no effect on the patients studied. After terlipressin, portal vein velocity, portal flow volume and cardiac output (CO) significantly decreased (0.09 vs 0.15 m/s, 0.56 vs 1 L/min and 6.4 vs 7.6 L/min, respectively [values are medians]), while mean arterial pressure (MAP) and systemic vascular resistance significantly increased (103.3 vs 89.9 mmHg and 1541 vs 1108dyn.s/cm(5), respectively). Fractional sodium excretion significantly increased in patients without ascites (0.43 vs 0.16%) while it did not change in patients with ascites. Somatostatin did not alter portal hemodynamics whereas it significantly reduced MAP, heart rate (HR) and CO (86.9 vs 98.6 mmHg, 65 vs 73 bpm and 8.4 vs 9.1 L/min, respectively) and, in patients with ascites, sodium excretion (0.13 vs 0.23%). The addition of terlipressin to somatostatin induced similar changes to those observed after terlipressin alone. The magnitude of increase in MAP was significantly higher in patients receiving terlipressin alone than in those receiving somatostatin plus terlipressin (15 vs 5.3%), while CO was conversely affected (-28.5 vs-20.9%). CONCLUSIONS: Combined treatment with somatostatin and terlipressin does not exert an additive portal hypotensive effect in cirrhotic patients as compared to terlipressin alone, whereas somatostatin alone may impair systemic hemodynamics. Compared with somatostatin, terlipressin exerts a more beneficial effect on renal sodium excretion in patients with or without ascites.     

Effects of octreotide on central hemodynamics and systemic oxygen use in patients with viral cirrhosis

OBJECTIVE: Octreotide has potentially beneficial effects in patients with cirrhosis. However, the effects of octreotide on central hemodynamics and oxygen use have not been established. The present study was undertaken to evaluate the effect of octreotide on central hemodynamics and oxygen use in patients with viral cirrhosis. METHODS: Twenty-five patients with cirrhosis were enrolled in the study. They were randomly assigned to receive either placebo (n = 10) or a continuous infusion of 100 microg/h of octreotide after an initial 100-microg bolus (n = 15). Hemodynamic measurements and oxygenation values were obtained before and 60 min after octreotide or placebo administration. RESULTS: Placebo administration did not have any effect on hemodynamic and oxygenation values. In patients who received octreotide, systemic hemodynamic values including cardiac index, mean arterial pressure, and systemic vascular resistance were not affected. The mean pulmonary arterial pressure tended to increase after octreotide administration but was statistically insignificant. There was a significant increase in pulmonary arterial vascular resistance, whereas the pulmonary capillary wedge pressure and right atrial pressure were significantly decreased. Arterial oxygen tension, systemic oxygen uptake, and oxygen extraction ratio were significantly decreased after octreotide administration, whereas oxygen transport as well as arterial and mixed venous oxygen contents remained unchanged. CONCLUSIONS: In patients with viral cirrhosis, octreotide administration exerted a significant effect on pulmonary circulation. It also resulted in a decrease in systemic oxygen uptake and oxygen extraction ratio. These results suggested that octreotide may impair tissue oxygenation in patients with viral cirrhosis.     

Hemodynamic evaluation of octreotide in patients with hepatitis B-related cirrhosis.

The hemodynamic effects of octreotide were studied in 20 patients with hepatitis B-related cirrhosis. In patients receiving a 100-micrograms bolus and a 100-micrograms/h infusion, heart rate, cardiac index, and systemic vascular resistance showed no significant changes, whereas right atrial pressure, pulmonary capillary wedge pressure, and inferior vena cava pressure decreased significantly after octreotide infusion compared with basal values. In contrast, in patients receiving a 50-micrograms bolus and a 50-micrograms/h infusion, all the systemic hemodynamic values were unaffected. In both groups of patients receiving two different doses of octreotide, the estimated hepatic blood flow, hepatic indocyanine green clearance, and wedge hepatic venous pressure were significantly reduced at 60 minutes after octreotide administration compared with basal values, whereas the hepatic venous pressure gradient remained unchanged. It is concluded that the two different doses of octreotide administration result in the reduction of the wedge hepatic venous pressure and the hepatic blood flow of a similar magnitude, whereas the hepatic venous pressure gradient is unaffected. Octreotide induces discrepant systemic hemodynamic response; this effect is dose related.     

Effects of terlipressin on systemic, hepatic and renal hemodynamics in patients with cirrhosis

Background and Aim: Terlipressin has been shown to be effective in the management of hepatorenal syndrome. However, how terlipressin exerts its effect on the renal artery is unknown. The aim of the present study was to assess the effects of terlipressin on systemic, hepatic and renal hemodynamics in cirrhosis. Methods: Twenty‐eight patients with cirrhosis and portal hypertension were studied. Systemic and hepatic hemodynamics, hepatic and renal arterial resistive indices and neurohumoral factors were measured prior to and 30 min after intravenous administration of 1 mg terlipressin (n = 19) or placebo (n = 9). Results: After terlipressin, there were significant increases in both mean arterial pressure (P < 0.001) and systemic vascular resistance (P < 0.001), whereas heart rate (P < 0.001) and cardiac output (P < 0.001) decreased significantly. There was a significant decrease in the hepatic venous pressure gradient (P < 0.001). Portal venous blood flow also decreased significantly (P < 0.001). The mean hepatic arterial velocity increased significantly (P < 0.001). Although there was a significant decrease in the hepatic arterial resistive index (0.72 ± 0.08 to 0.69 ± 0.08, P < 0.001) and renal arterial resistive index (0.74 ± 0.07 to 0.68 ± 0.07, P < 0.001), portal vascular resistance was unchanged (P = 0.231). Plasma renin activity decreased significantly (P < 0.005), and there was a significant correlation between this decline and the decrease in renal arterial resistive index (r = 0.764, P < 0.005). The effects of terlipressin on systemic, hepatic and renal hemodynamics were observed similarly in patients with and without ascites. Placebo caused no significant effects. Conclusion: Terlipressin decreases hepatic and renal arterial resistance in patients with cirrhosis.     

Effects of glypressin on the splanchnic and systemic circulation in patients with cirrhosis

Although not demonstrated in patients with cirrhosis, it is generally claimed that administration of vasopressin in the form of triglycyl-lysine-vasopressin (glypressin) may prevent untoward systemic effects of this former hormone. The aim of this study was to assess the effects of intravenous administration of 2 mg of glypressin on splanchnic and systemic hemodynamics in 9 patients with cirrhosis under stable circulatory conditions. One hour after the injection, the following statistically significant changes were observed as compared to the baseline values (m +/- SEM): wedged hepatic venous pressure, -9 +/- 2 p. 100; hepatic venous pressure gradient, -16 +/- 3 p. 100; azygos blood flow, -24 +/- 6 p. 100; heart rate, -16 +/- 3 p. 100; cardiac index, -23 +/- 2 p. 100; systemic vascular resistances, +47 +/- 11 p. 100; wedged pulmonary arterial pressure, +44 +/- 15 p. 100. In conclusion, in patients with cirrhosis in a stable hemodynamic condition, intravenous administration of glypressin decreased portal venous pressure and blood flow into the superior portal systemic collateral circulation but did not prevent the untoward systemic hemodynamic effects of vasopressin.     

The effects of treatment with octreotide, diuretics, or both on portal hemodynamics in nonazotemic cirrhotic patients with ascites

GOALS: To evaluate the effects of diuretic treatment, octreotide, or both on portal hemodynamics in nonazotemic cirrhotic patients with ascites. BACKGROUND: Diuretics and octreotide have been associated with a decrease in portal pressure in cirrhotic patients, suggested to be mediated by plasma volume depletion and splanchnic vasoconstriction, respectively. However, liver cirrhosis is characterized by activation of the renin-angiotensin-aldosterone axis, which increases hepatic vascular resistance and is augmented or suppressed by diuretics or octreotide, respectively. STUDY: Twenty nonazotemic cirrhotic patients with ascites were treated with furosemide and spironolactone. Of them, 10 (group 1) discontinued diuretic treatment for 7 days. Thereafter for 5 days, each patient received subcutaneous octreotide, 300 microg twice per day; ten of them (group 2) received the octreotide in addition to their usual diuretic treatment. Portal and systemic hemodynamics with Doppler ultrasound and endogenous vasoactive systems were evaluated while the patients received diuretics (both groups), after discontinuation of diuretics (group 1), and after octreotide administration (both groups). RESULTS: The withdrawal of diuretics did not alter portal hemodynamics, but it impaired systemic hemodynamics and suppressed the renin-aldosterone axis. The addition of octreotide to diuretic treatment but not octreotide alone improved portal and systemic hemodynamics. In both groups the initiation of octreotide administration suppressed the renin-aldosterone axis and plasma glucagon levels. CONCLUSIONS: In nonazotemic cirrhotic patients with ascites, the combination of diuretics and octreotide improves systemic hemodynamics and inhibits the diuretic-related component of the activated renin-aldosterone axis, which in turn augments the portal hypotensive effect of diuretic-induced plasma volume depletion.     

A 3-month course of long-acting repeatable octreotide (sandostatin LAR) improves portal hypertension in patients with cirrhosis: a randomized controlled study

OBJECTIVE: In patients with cirrhosis, acute octreotide administration may transiently decrease the hepatic venous pressure gradient (HVPG). Information on long-term effects of octreotide is limited and controversial. We evaluated portal and systemic hemodynamics following a prolonged administration of long-acting octreotide in patients with cirrhosis. METHODS: Eighteen cirrhotic patients (alcoholic 12; age 55 yr [44-69]; Pugh's score 7.8; HVPG 17.3 mmHg [12-22]), no steatohepatitis on histology, were randomized to intramuscular octreotide 20 mg (group A) q 4 wk for 3 months or placebo (group B) in a double-blind fashion. At baseline and 3 months, we measured the HVPG, systemic hemodynamics, endothelin-1 (ET-1), and vascular endothelial growth factor (VEGF) in hepatic venous blood. RESULTS: Patients remained compensated except for one episode of infection in each group. At 3 months, the HVPG decreased in group A but not in group B (16.5 +/- 1.3 to 11.8 +/- 1.5 mmHg, P < 0.01; 18.2 +/- 1 to 17 +/- 1.1 mmHg, P= 0.4). Systemic hemodynamics and liver function remained unchanged. In group A, but not in group B, VEGF decreased (21.2 +/- 4.7 to 13.7 +/- 3.5 pg/mL, P < 0.01; 22.5 +/- 7.8 to 19.2 +/- 5.4 pg/mL, P= 0.4). ET-1 remained stable. Changes in HVPG and VEGF were correlated (r = 0.49, P < 0.05). CONCLUSIONS: Three months of long-acting octreotide in selected cirrhotic patients with portal hypertension decreases the HVPG independent of systemic hemodynamics and liver function. The decrease in VEGF blood levels suggests an improvement in splanchnic hyperemia.     

Effect of terlipressin on blood volume distribution in patients with cirrhosis

BACKGROUND: Patients with cirrhosis and portal hypertension have an altered blood volume distribution and a hyperdynamic systemic circulation. Terlipressin is known to reduce portal pressure by decreasing splanchnic inflow, but its effect on the blood volume distribution is unknown. The aim of the study was to investigate changes in regional blood volume distribution and systemic haemodynamics after administration of terlipressin to patients with cirrhosis. METHODS: Blood volume distribution was determined in 13 patients with cirrhosis and portal hypertension by a dual-head gamma-camera technique and systemic haemodynamics was measured before and after intravenous administration of terlipressin (2 mg). RESULTS: Terlipressin increased the blood volume in the thorax region (+6.0%, P < 0.002) and the liver region (+12.2%, P < 0.002), whereas blood volume in the splanchnic region remained unchanged. Systemic vascular resistance (SVR) and mean arterial blood pressure increased after terlipressin (+34 and +21%, P < 0.001). The increase in liver blood volume correlated directly with the increase in SVR (r = 0.88. P < 0.001). CONCLUSIONS: Terlipressin ameliorates the hyperdynamic circulation, increases thorax and liver blood volumes, but produces no effect on the splanchnic blood volume. Besides decreasing the splanchnic inflow, terlipressin may affect portal pressure by causing vasodilatation of intrahepatic vessels.     

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.     

Splanchnic haemodynamics after intravenous terlipressin in anaesthetised healthy pigs

BACKGROUND/AIMS: Terlipressin is used for the treatment of bleeding oesophageal varices. We evaluated the effects of terlipressin on hepatic haemodynamics, with special focus on the interactions between portal venous flow and hepatic arterial flow over time. Secondly, we evaluated the estimated hepatic blood flow by the ICG clearance method against direct measurements of hepatic blood flow. METHODS: Eight healthy anaesthetised pigs received terlipressin 1 mg or placebo intravenously in a randomised, blind, cross-over design. Hepatic arterial flow, portal venous flow, systemic haemodynamics, and portal vein diameter were recorded simultaneously. Portal venous flow and hepatic arterial flow were measured by transit time ultrasound flowmetry. Estimated hepatic blood flows at baseline and after terlipressin were compared with the sum of the portal venous flow and hepatic arterial flow. RESULTS: Portal venous flow decreased significantly 5 min after administration of terlipressin (p<0.05). At 30 min it had decreased by 34% (p<0.01) and the hepatic arterial flow had increased by 81% (p<0.01). The estimated hepatic blood flow and the hepatic blood flow decreased by 23% (p<0.015). At baseline the estimated hepatic blood flow and the hepatic blood flow correlated significantly (r=0.85, p<0.01), but this correlation disappeared after administration of terlipressin (r=0.06, p=ns). The hepatic blood flow was 12% higher than the estimated hepatic blood flow before and after terlipressin. CONCLUSIONS: Terlipressin decreased the portal venous flow, hepatic blood flow, and estimated hepatic blood flow significantly and was accompanied by a substantial increase in hepatic arterial flow. The estimated hepatic blood flow and hepatic blood flow were strongly correlated at baseline, but after terlipressin the correlation disappeared.     

Central and systemic haemodynamic effects of terlipressin in portal hypertensive patients

AIMS/BACKGROUND: Cirrhotic patients exhibit a hyperdynamic and hyporeactive circulation with central hypovolaemia which may influence the course of the disease. As terlipressin, a vasopressin analogue, may modify systemic haemodynamics in these patients, the aim of the present study was to assess the acute effects of terlipressin on central and systemic haemodynamics. METHODS: Sixteen patients with alcoholic cirrhosis and portal hypertension had their systemic, central, and splanchnic haemodynamics determined at baseline and after a blind randomised bolus infusion (2 mg) of terlipressin/placebo. RESULTS: After terlipressin, the arterial blood pressure and the systemic vascular resistance increased by 26% and 61%, respectively (both p<0.001), and the cardiac output, heart rate, and arterial compliance decreased by 18%, 11%, and 32%, respectively (all p<0.001). The central circulation time increased by 36% (p<0.001), whereas the central and arterial blood volume only increased by 4% (p= 0.07). As expected, both portal pressure and hepatic blood flow decreased (17% and 29%, both p<0.001). The decrease in portal pressure after terlipressin was significantly related to the increase in systemic vascular resistance (r=-0.52, p<0.05) and the central circulation time (r=-0.80, p<0.0001). CONCLUSIONS: Terlipressin significantly attenuates the hyperdynamic circulation in portal hypertensive patients without a further contraction of the central and arterial blood volume. The systemic haemodynamic response to terlipressin is moreover associated with the decrease in portal pressure. Terlipressin may therefore have potentially beneficial effects on the hyperdynamic circulation in cirrhosis in addition to its effects on portal pressure.     

Hemodynamic effects of a clonidine-induced decrease in sympathetic tone in patients with cirrhosis

A decrease in plasma noradrenaline--a reflection of sympathetic nervous system activity--by clonidine, a centrally acting alpha 2-agonist, could reduce the hyperdynamic circulation observed in cirrhosis and may thereby decrease portal hypertension. Plasma noradrenaline concentration and plasma renin activity as well as systemic and splanchnic hemodynamics were measured in 12 patients with cirrhosis and ascites before and after administration of either 150 micrograms of clonidine or placebo. Plasma noradrenaline concentration significantly decreased in all patients after clonidine administration, whereas plasma renin activity did not change significantly. There were statistically significant reductions of cardiac output (-17.4%), mean arterial pressure (-12.2%), hepatic venous pressure gradient (-19.7%) and azygos blood flow (-26.6%) after administration of clonidine. No significant correlation was found between the reduction of plasma noradrenaline concentration and changes in systemic or splanchnic hemodynamics. Hepatic blood flow was not changed by clonidine. Placebo administration had no effect on any laboratory or hemodynamic measurement. We conclude that the reduction in sympathetic nervous system activity by clonidine and the subsequent decrease in the hyperdynamic circulation suggests that sympathetic overactivity contributes to the circulatory derangements in patients with cirrhosis.     

Systemic and hepatic hemodynamics after variceal hemorrhage: effects of propranolol and placebo

Hepatic and systemic hemodynamics were measured in 19 cirrhotic patients with variceal bleeding enrolled in a controlled trial of propranolol for the prevention of rebleeding. The patients were studied on three separate occasions. The first study was performed before randomization within 24 h of the bleeding episode, once hemodynamic stabilization had been achieved. The second study was performed after 10 days of treatment, and the third after 6 mo without rebleeding. Propranolol dosage was titrated according to blood levels. Wedged and free hepatic venous pressures and the hepatic venous pressure gradient were recorded. Hepatic blood flow and cardiac output were also measured. Before treatment, the groups of patients treated with propranolol (n = 11) or placebo (n = 8) were comparable according to clinical, biochemical, and hemodynamic parameters. After 10 days, hepatic venous pressure gradient decreased similarly in the two groups (-20% in the propranolol group, -25% in the placebo group). Cardiac output fell only in the propranolol group (-40%). Hepatic blood flow remained unchanged in either group. After 6 mo, hepatic venous pressure gradient remained lower than the values from the first (within 24 h of bleeding) study in both the propranolol group (n = 5) and the placebo group (n = 6). Our results suggest that portal pressure increases shortly after hemorrhage with a return to baseline values 10 days later, and that propranolol does not further magnify these changes. Spontaneous changes in hepatic hemodynamics after variceal hemorrhage must be taken into account when evaluating the effect of pharmacologic agents on portal pressure.     

Lack of effects of isosorbide-5-mononitrate on hepatic hemodynamics in HBsAg-positive cirrhosis

We conducted a randomized controlled hemodynamic study to evaluate the effect of placebo and 20 mg isosorbide-5-mononitrate, a long-acting organic nitrate, in 19 patients with HBsAg-positive cirrhosis by the simultaneous measurement of portal venous pressure and wedged hepatic venous pressure. Baseline values for the two groups were similar. One hour after oral administration of 20 mg isosorbide-5-mononitrate in 10 patients, mean arterial pressure, mean pulmonary arterial pressure and pulmonary capillary wedge pressure significantly decreased from 92 +/- 13 (mean +/- S.D.) to 82 +/- 14 mmHg, from 12.9 +/- 4.5 to 9.3 +/- 2.4 mmHg and from 6.9 +/- 3.4 to 4.3 +/- 1.8 mmHg, respectively. However, both portal venous pressure gradient (from 18.1 +/- 3.6 to 17.5 +/- 3.0 mmHg) and hepatic venous pressure gradient (from 17.8 +/- 5.2 to 16.6 +/- 5.3 mmHg) remained unchanged during the study. In six patients who received 20 mg isosorbide-5-mononitrate twice daily for 7 days, hepatic venous pressure gradient remained unaltered as compared to basal and 1-hr values. There was no significant change in cardiac index, heart rate or systemic vascular resistance in either immediate (1-hr) or delayed (7-day) studies. Three patients (30%) developed mild headache or dizziness and two patients (20%) demonstrated systolic hypotension (less than mmHg) during the immediate study. This study shows that isosorbide-5-mononitrate appears to have no effect in treating portal hypertension in patients with HBsAg-positive cirrhosis. In addition, the isosorbide-5-mononitrate may affect the systemic circulation more than the portal circulation.     

Hemodynamic and metabolic effects of terlipressin in patients with cirrhosis receiving a nonselectiveβ-blocker

Terlipressin (Glypressin), a vasopressin analog, may be administered to patients with cirrhosis receiving a-adrenergic antagonist. Since terlipressin alone and-blockers alone both decrease portal pressure, a combination of these substances may have additional portal hypotensive effects. However, the negative side effects of terlipressin may be accentuated by long-term-blockade. Thus, the present study examined hemodynamic and metabolic responses to terlipressin in 12 patients receiving nonselective-blockers (propranolol or nadolol). Hemodynamics and oxygen (O₂) -derived variables were measured prior to and 30 min after the administration (intravenous bolus) of terlipressin (1 to 2 mg, according to body weight). The hepatic venous pressure gradient and azygos blood flow significantly decreased (from 15.3±1.1 to 12.5±1.1 mm Hg, and from 0.6±0.1 to 0.5±0.1 liters/min, respectively). Arterial and pulmonary wedged pressures significantly increased. Heart rate, cardiac index, and O₂ consumption were not significantly affected by terlipressin. In conclusion, in patients with cirrhosis being treated with a nonselective-blocker, terlipressin administration decreased portal pressure. Moreover, terlipressin induced only mild systemic hemodynamic effects in these patients. These results suggest that terlipressin can be administered in patients receiving a-adrenergic blocker.This work was supported in part by Ferring S.A.