Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pathophysiology and treatment of esophageal varices are reviewed. The cause of esophageal varices is generally thought to be portal hypertension. The most common cause of portal hypertension in the United States is alcoholic liver disease. Other etiologies of portal hypertension include portal vein thrombosis, schistosomiasis, and inferior vena caval obstruction by tumor or thrombus. Although short-term balloon tamponade and vasopressin infusion will control acute variceal hemorrhage, they do not affect the underlying problem and are not indicated for long-term treatment of esophageal varices. Surgical procedures either ablate varices or lower portal vein pressure. Portal-systemic shunts have emerged as the preferred surgical technique, but the superiority of total versus selective shunts is unclear. Pharmacological management can include administration of vasopressin, somatostatin, verapamil, or isosorbide dinitrate for short-term treatment or verapamil, isosorbide dinitrate, or propranolol for prolonged treatment. Use of sclerotherapy for treatment and prevention of hemorrhage from esophageal varices has grown recently. Because there are several sclerosing agents and combinations of agents available for use, assessing their relative safety and efficacy is difficult. Innovative approaches to management of varices include a shunt procedure involving the left lung, use of a tissue adhesive, and laser treatment. Because of its effectiveness and ease of administration, sclerotherapy appears to be a rational method of treatment for acute hemorrhage from esophageal varices.
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PMID:Treatment of esophageal varices. 264 81

Portal hypertension is a frequent syndrome characterized by a chronic increase in portal venous pressure and by the formation of portal-systemic collaterals. Its main consequence is massive bleeding from ruptured esophageal and gastric varices. Bleeding is promoted by increased portal and variceal pressure, and is favored by dilatation of the varices. The evaluation of the portal hypertensive patient should include the assessment of portal vein patency by ultrasonography, endoscopic evaluation of the presence, size, and extent of esophageal varices, and hemodynamic studies with measurements of portal pressure and of portal-collateral blood flow. The preferred techniques are hepatic vein catheterization and measurement of azygos blood flow. Endoscopic measurements of variceal pressure and estimations of portal blood velocity by the Doppler technique have recently been introduced, but are still research procedures. Acute variceal hemorrhage should be treated under intensive care. Specific therapy to arrest variceal bleeding includes balloon tamponade, vasopressin, somatostatin, sclerotherapy, and emergency surgery. Treatment of portal hypertension is aimed at preventing variceal hemorrhage and bleeding-related deaths. Pharmacologic prophylaxis is based on the use of drugs that cause a sustained reduction in portal pressure; most studies have used propranolol. Surgery and endoscopic sclerotherapy can also be used to prevent rebleeding.
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PMID:Portal hypertension. 265 68

In a series of 602 consecutive sclerotherapies, two cirrhotic patients who had received successful sclerotherapy for control of variceal bleeding while on vasopressin infusions developed mesenteric thrombosis. We found no other cases (in our institution or in literature review) where sclerotherapy or vasopressin infusion alone precipitated mesenteric thrombosis. During vasopressin infusion, there is portal stasis and an increased caudad flow of sclerosant. We suggest that mesenteric thrombosis is a consequence of the combination of these two effects. Direct injection of gastric varices is difficult because of increased postsclerotherapy bleeding, but sclerosis of esophageal varices often leads to their obliteration by the caudad flow of sclerosant. We propose, therefore, that vasopressin infusion during esophageal sclerotherapy may be beneficial in the obliteration of gastric varices. We conclude that (a) in patients without gastric varices, vasopressin infusion increases the incidence of mesenteric thrombosis, and (b) vasopressin infusion during sclerotherapy may enhance the sclerosis of gastric varices.
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PMID:Mesenteric thrombosis following sclerotherapy during vasopressin infusion: mechanism and therapeutic implications. 278 37

Remestyp Spofa is used in wide clinical practice, among others also in the comprehensive treatment of acute haemorrhage from oesophageal varices. To patients with portal hypertension, oesophageal varices associated with cirrhosis of the liver by means of an infusion pump Remestyp was administered, 13.4 micrograms/1 kg body weight for one hour. By means of a Doppler flowmeter the rate of the blood flow and the blood flow through the trunk of the portal vein was assessed before, at 10-minute intervals during infusion, and during the 90th, 120th and 150th minute. After administration of the drug no significant effect on the investigated parameters was recorded. Therefore in the same group of patients by means of a catheter before and after infusion the following parameters were assessed: central venous pressure, pressure in the pulmonary artery, cardiac minute output, pressure in the free and wedged hepatic vein. Simultaneously changes of the systemic blood pressure were investigated. After Remestyp a significant rise of the systemic blood pressure was recorded, a rise of the central venous pressure and the pressure in the pulmonary artery. The minute volume declined slightly. The pressure in the free and wedged hepatic vein rose. The authors assume therefore that the direct effect of Remestyp on the portal circulation is not haemodynamically significant. The favourable haemostyptic action of Remestyp in patients with haemorrhage from oesophageal varices is rather due to an increased tonus of the oesophageal sphincters. With regard to the very satisfactory experience with the administration of nitrates in this indication their combined administration with vasopressin or its derivatives is considered.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The effect of terlipressin (Remestyp Spofa) on hemodynamic parameters in patients with portal hypertension associated with liver cirrhosis]. 279 Aug 79

Bleeding from esophageal varices is a feared complication of liver cirrhosis with high mortality. Pharmacotherapy of the acute bleeding episode with vasopressin has been shown to be effective in controlled studies, but side effects of this therapy are high and therefore replacement of vasopressin with somatostatin is under investigation. Another potential lead is the combination of vasopressin with vasodilators such as nitroglycerin. While acute pharmacotherapy of the patient with esophageal varices is well accepted, chronic or prophylactic pharmacotherapy is still in the investigative stage. Prophylactic therapy with beta-blockers, e.g. propranolol, has been shown to be effective in compensated patients with alcoholic cirrhosis. In patients with more advanced stages of the disease, or with cirrhosis of other etiology, the effectiveness of propranolol has not been proven. The mechanism of propranolol is similar to that of vasopressin, i.e. it lowers portal pressure by reducing portal flow. To maintain function of the affected organ, an alternative approach--namely lowering of portal pressure through reduction of the pathologically elevated resistance--should be actively investigated.
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PMID:[Pharmacological therapy of portal hypertension]. 286 82

Drugs used to treat portal hypertension cause constriction of mesenteric arterioles, reducing inflow to the portal venous system, portal pressure, and flow through portasystemic collaterals (such as esophageal varices). Vasopressin and somatostatin are direct vasoconstrictors. Propranolol acts by blocking vasodilatory beta 1 receptors and reducing cardiac output. A major side effect of vasopressin therapy is impaired cardiac performance secondary to coronary vasoconstriction and increased work against high arterial pressure. Infusion of vasopressin together with a cardiac inotrope or a vasodilator, and administration of vasopressin as an inactive "hormonogen" which is slowly released in vivo, may lessen adverse effects. Somatostatin appears to act selectively in the mesenteric circulation. Controlled trials indicate that vasopressin may be useful for controlling hemorrhage from esophageal varices and that somatostatin works at least as well as vasopressin. Propranolol treatment has been used to prevent variceal bleeding; however, controlled trials of its effectiveness have produced conflicting results.
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PMID:Drug therapy for portal hypertension. 287 47

A multicenter double-blind clinical trial was undertaken to evaluate the efficacy of a short-term somatostatin treatment versus a short-term vasopressin treatment on acute hemorrhage from esophageal varices in patients with liver cirrhosis and portal hypertension. Forty-nine patients with massive hemorrhage and endoscopic diagnosis of bleeding esophageal varices completed the study. Patients were randomly assigned to somatostatin treatment (24 patients: 250 micrograms/hr i.v. for 48 hrs) or vasopressin treatment (25 patients: 0.1 U/min i.v. for 48 hrs). The Sengstaken-Blakemore tube was utilized, when needed, for a six hour period. In case of failure the patients were crossed-over to the other treatment. Patients in whom the bleeding stopped at 48 hrs, were randomly assigned to somatostatin (250 micrograms/hr i.v.) or placebo for seven days. Bleeding stopped in 68% of patients treated with somatostatin and in 28% of patients treated with vasopressin (p less than 0.0013). Mortality rate was lower, but not significantly so, in the somatostatin group compared to the vasopressin group. No differences were noted between somatostatin and placebo in preventing bleeding recurrences. These data suggest that somatostatin, when combined if necessary with a 6 hour period of balloon tamponade, is more effective than vasopressin at low doses in controlling severe hemorrhage from esophageal varices in patients with liver cirrhosis and portal hypertension. A clinical use of somatostatin seems to be indicated in these patients.
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PMID:Effect of somatostatin in controlling bleeding from esophageal varices. 288 97

Vasopressin has been in clinical use for more than two decades in the treatment of upper gastrointestinal haemorrhage, especially bleeding oesophageal varices. However the haemostatic effect in controlled clinical trials is far from impressive, and no double-blind placebo controlled trial has shown even a trend in favour of vasopressin. These studies, the effects, side-effects, and clinical use of vasopressin and its long-acting analogue triglycylvasopressin, glypressin, are reviewed.
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PMID:Vasopressin and glypressin in upper gastrointestinal bleeding. 289 63

Portal hypertension is a common complication of chronic liver disease. Conventional therapy consists of surgery and palliative measures for the hemodynamic problem. It has been recently reported that somatostatin may reduce portal pressure without altering the systemic circulation and so reducing hepatic blood flow. This peptide also causes a significant fall in azygos circulation in patients with esophageal varices. The mechanism of this effect is unclear although suppression of intestinal vasodilating hormones and of glucagon have been claimed to play a role. Comparative clinical studies have shown somatostatin to be superior to the standard vasopressin treatment. Recent findings suggest that the efficacy of somatostatin can be increased by administering this peptide in repeated intravenous bolus injections. New derivatives, specially long-acting peptides, may eventually prove beneficial in the chronic treatment of this complication.
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PMID:Effects of somatostatin in patients with portal hypertension. 290 Feb 7

Thirty-nine patients admitted during a 16-month period for acute bleeding from varices confirmed by emergency endoscopy were randomized to receive either continuous intravenous infusions of vasopressin alone (0.66 units per min) (Group I: 19 patients) or vasopressin plus sublingual nitroglycerin (0.6 mg every 30 min for 6 hr) (Group II: 20 patients). The two groups of patients were similar in the type and severity of their cirrhosis. Bleeding was controlled initially in 47% (9/19) of the patients in Group I and 55% (11/20) of the patients in Group II after 6 hr of infusion (not statistically significant). Complete control of bleeding during 24 hr of infusion was achieved in only 4 of 19 patients in Group I (21%) but in 9 of 20 in Group II (45%). This difference is not statistically significant. The total number of patients with complications during infusions were significantly different statistically in the vasopressin and vasopressin-nitroglycerin groups, respectively (17/19 vs. 7/20, p less than 0.001). Major complications requiring immediate cessation of infusions were observed in 6 of 19 of the patients in Group I (32%) and in 2 of 20 in Group II (10%) (p less than 0.05). Mortality (58% in Group I, 55% in Group II) and transfusion requirements were similar in the two groups. This study shows that the addition of sublingual nitroglycerin to intravenous vasopressin does not alter the efficacy of vasopressin alone in controlling hemorrhage from esophageal varices, but it does significantly reduce the complications.
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PMID:Controlled trial of vasopressin plus nitroglycerin vs. vasopressin alone in the treatment of bleeding esophageal varices. 308 3


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