Terlipressin plus transdermal nitroglycerin vs. octreotide in the control of acute bleeding from esophageal varices: A multicenter randomized trial

Silvain, M D Christine; Carpentier, Stéphane; Sautereau, Denis; Czernichow, B; Métreau, J M; Fort, Eric; Ingrand, Pierre; Boyer, J.; Pillegand, B; Doffël, Michel; Dhumeaux, Daniel; Beauchan, Michel

doi:10.1002/hep.1840180111

Cited by 63 publications

(39 citation statements)

References 29 publications

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“…[1][2][3][4] In patients with cirrhosis and portal hypertension, it reduces splanchnic and azygos blood flow, 5,6 whereas the action with regard to portal pressure is modest. [5][6][7] Conversely, the effect(s) of natural somatostatin and its analog, octreotide, upon renal hemodynamics and function are unclear and have been a reason for debate.…”

mentioning

confidence: 99%

Hemodynamic effects of the somatostatin analog lanreotide in humans: Placebo-controlled, cross-over dose-ranging echo-doppler study

Mottet¹,

Sieber²,

Nauer³

et al. 1998

Hepatology

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Because of their vasoactive effects, somatostatin and its analogs are increasingly used in the management of complications of chronic liver diseases such as variceal bleeding. Postprandial hyperemia augments splanchnic blood flow, subsequently increasing portal pressure. The aim of this study was to explore effects of the somatostatin analog, lanreotide, on food-stimulated hemodynamic parameters in healthy human subjects. A dose-response curve was constructed in eight healthy male subjects in a placebo-controlled cross-over study. On 4 different days, either 0 (placebo), 50, 100, or 200 g/h of lanreotide was infused intravenously in random order, starting at 45 minutes for 7 hours. On each day, a liquid test meal (Ensure plus, 1.5 kcal/mL) was perfused intraduodenally at a rate of 3 mL/min over 7 hours after a 45-minute basal period. Diastolic arterial pressure (dBP), heart rate (HR), superior mesenteric arterial (SMA) average flow velocity (SMA-V), SMA pulsatility index (SMA-PI), portal venous volume flow (PV-F), and renal artery (RA) resistance index (RA-RI) were measured on regular intervals (flows using Echo-Doppler technology). Lanreotide at all doses abolished food-stimulated splanchnic hyperemia both in the SMA and PV over 7 hours. The fall in dBP and increase in HR after food perfusion were blunted under lanreotide. Food as well as lanreotide did not modify RA-RI. In summary: 1) lanreotide inhibits food-induced splanchnic hyperemia in normal subjects; 2) in parallel, systemic hemodynamic alterations to food stimulation are abolished with lanreotide; and 3) renal vascular resistance is unchanged. Because of its persistent splanchnic vasoconstrictive effect, lanreotide should be tested in patients with portal hypertension. (HEPATOLOGY 1998;27: 920-925.) Natural somatostatin, and especially its analog, octreotide, are increasingly used in the treatment of esophageal variceal bleeding. [1][2][3][4] In patients with cirrhosis and portal hypertension, it reduces splanchnic and azygos blood flow, 5,6 whereas the action with regard to portal pressure is modest. [5][6][7] Conversely, the effect(s) of natural somatostatin and its analog, octreotide, upon renal hemodynamics and function are unclear and have been a reason for debate. [8][9][10][11] Hemodynamic effects, at least for octreotide, have recently been shown to be only short-lasting, even when the drug is infused constantly. 12 In addition, no clear dose-response with regard to splanchnic hemodynamics has been performed, making a dose justification for the use of this compound difficult.Food is a very potent hyperemic stimulus in the splanchnic vascular area, both in normal subjects, 13-15 as well as in patients with portal hypertension. 16,17 It has been hypothesized that postprandial hyperemia may acutely augment portal pressure, and by this mechanism may probably increase the risk of bleeding from gastroesophageal varices. 18,19 It has also been shown that octreotide blunts this postprandial increase both in normal subjects 20,21 and cirrhotic patients....

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mentioning

confidence: 99%

Hemodynamic effects of the somatostatin analog lanreotide in humans: Placebo-controlled, cross-over dose-ranging echo-doppler study

Mottet¹,

Sieber²,

Nauer³

et al. 1998

Hepatology

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“…Octreotide was found to be comparable to balloon tamponade in one study (n = 40 patients) [57], to vasopressin in one (n = 87 patients) [58] and to terlipressin plus nitoglycerin in another (n = 48 patients; table 5) [59]. However, the sample sizes were small and the end-points not very clear, indicating that these results should be interpreted with caution.…”

Section: Octreotidementioning

confidence: 75%

Role of Vasoactive Drugs in the Treatment of Bleeding Oesophageal Varices

Goulis

Burroughs²

1999

Digestion

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“…Four recent trials compared somatosta-therapeutic compound, has a half-life of 2-3 min. Inhibition by somatostatin of the secretion of a number of tin or octreotide to terlipressin alone [4][5][6] or associated with nitroglycerin [7]. All four concluded that terlipressin hormones thought to play a role in the maintenance of portal hypertension (including glucagon and VIP) iniwas comparable to somatostatin or octreotide for the control of bleeding.…”

mentioning

confidence: 96%

“…Its half-life [7], although it did not demonstrate a statistically significant difference in the incidence of side effects, reported is longer than that of somatostatin, and may be as long as 4 h in patients with cirrhosis [9]. While somatostatin severe bradycardia due to terlipressin in 2 patients, which was responsible for death in 1.…”

mentioning

confidence: 98%

Somatostatin or Octreotide in Acute Variceal Bleeding

Hadengue¹

1999

Digestion

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In patients with cirrhosis, somatostatin or octreotide administration is followed by a transient decrease in the hepatic venous pressure gradient and azygos blood flow. Although no clear-cut changes in variceal pressure are observed and the exact mechanisms of acute hemodynamic changes induced by somatostatin or its derivatives are still unknown, this provided the rationale for its use in patients with variceal hemorrhage. The only known sustained hemodynamic effect of octreotide is to prevent increases in hepatic venous gradient or azygos blood flow in response to food intake. Somatostatin infusion can be as effective as sclerotherapy in the initial control of bleeding esophageal varices in patients with cirrhosis and is associated with fewer complications. Octreotide also seems to be as effective as endoscopic therapy in the control of acute variceal bleeding, although larger studies should be performed before its efficacy and safety profile can be fully evaluated. The combination of somatostatin or long-acting analogues to endoscopic therapy has recently been delineated as one of the most promising approaches in these patients. Early somatostatin administration with repeat boluses, starting several hours before sclerotherapy is combined, eases the endoscopic procedure and reduces bleeding control failure rate. Although two studies also showed that octreotide, when started at the time of sclerotherapy or variceal banding, also improves bleeding control, a conclusion on octreotide use in these patients is premature. Optimal administration schedules and doses of somatostatin or octreotide are still unknown. The safety of octreotide in patients with variceal bleeding, which has recently been challenged, should be assessed in larger trials. Recent data suggesting that octreotide combination to β-blockers or sclerotherapy may represent a useful approach for long-term prevention of rebleeding in these patients will have to be confirmed.

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Terlipressin plus transdermal nitroglycerin vs. octreotide in the control of acute bleeding from esophageal varices: A multicenter randomized trial

Cited by 63 publications

References 29 publications

Hemodynamic effects of the somatostatin analog lanreotide in humans: Placebo-controlled, cross-over dose-ranging echo-doppler study

Hemodynamic effects of the somatostatin analog lanreotide in humans: Placebo-controlled, cross-over dose-ranging echo-doppler study

Role of Vasoactive Drugs in the Treatment of Bleeding Oesophageal Varices

Somatostatin or Octreotide in Acute Variceal Bleeding

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