Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of this study was to evaluate the effects of octreotide, a long-acting somatostatin analogue, on canine gastric mucosal blood flow and hemodynamics. We hypothesized that octreotide might decrease gastric mucosal blood flow without causing adverse hemodynamic effects. Two groups of dogs were anesthetized (six normal dogs and six dogs with prehepatic portal hypertension), and each dog was administered intravenous octreotide, normal saline solution, and vasopressin for 30 minutes on separate days in a blinded, randomized fashion. Vasopressin was included as treatment for a positive control. Gastric mucosal blood flow was assessed at the fundus, corpus, and antrum by endoscopic reflectance spectrophotometry. A femoral arterial catheter monitored systemic blood pressure and heart rate. Treatment responses for all observations were calculated for each dog as a percentage of baseline values. For mucosal blood flow, treatment responses did not differ significantly over time or between animal group or gastric location. Octreotide significantly decreased indices of hemoglobin concentration (-19%, p = 0.01) and oxygen saturation (-17%, p = 0.0002) compared to saline (-9% and -7%, respectively). The mean arterial pressure was increased after octreotide compared to saline (+23% versus +7%, p = 0.01), but octrotide had no effect on heart rate (+2% versus +1%). Vasopressin also decreased the indices of hemoglobin concentration (-34%) and oxygen saturation (-82%) significantly more than saline (p = 0.001). Vasopressin increased mean arterial pressure (+55%), but also caused reflex bradycardia (-22%) significantly more than saline (p = 0.001). We conclude that octreotide decreases canine gastric mucosal blood flow and appears to cause minimal hemodynamic changes.
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PMID:Octreotide decreases canine gastric mucosal blood flow: a controlled assessment by endoscopic reflectance spectrophotometry. 816 36

About 30% to 35% of patients with portal hypertension bleed from gastroesophageal varices and mortality remains high reflecting the challenges of effectively dealing with the bleeding event itself and the problems of underlying liver disease. Careful resuscitation and control of risk of complications is the most essential element of medical therapy (Fig. 2). Use of newer, more effective drug combinations with vasopressin or somatostatin permit control of hemorrhage in the majority of patients with fewer drug-induced complications. Endoscopic sclerotherapy and, more recently, banding therapy provide immediate control of hemorrhage and eradication of varices and rebleeding in up to 90% of patients. Persistent, recurrent bleeding in the small number of remaining patients can be effectively managed by "portacaval shunt rescue" or orthotopic liver transplantation in selected cases with acceptable surgical morbidity and mortality. The contribution and role of the TIPS procedure is unknown but very promising; at least as a bridge procedure in patients awaiting transplantation. Until appropriate prospective, comparative trials are performed, the role of TIPS as a long-term alternative to portacaval shunt surgery or other endoscopic or surgical options remains unknown.
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PMID:Treatment of acute gastroesophageal variceal hemorrhage. 837 25

The effects of somatostatin analogue, SMS 201-995, on systemic and splanchnic hemodynamics and glucagon secretion were investigated in control and cirrhotic rats induced by thioacetamide administration. Hemodynamics were measured using the radioactive microsphere method. Immunoreactive glucagon (IRG) was determined in the portal vein and femoral artery and the splanchnic output (OP) of IRG was calculated. In control rats, SMS 201-995 induced a decrease of 5.6% in portal venous inflow and a 25.8% decrease in OP of IRG. In cirrhotic rats, SMS 201-995 produced a 14% decrease in portal pressure, a 13.6% decrease in portal venous inflow, and a 57.8% decrease in OP of IRG. In systemic hemodynamics no significant changes were noted following SMS 201-995 administration in the control or cirrhotic rats. The ratio of cirrhotic rats to the controls in the rate of decrease in portal venous inflow was similar to that in the percentage of decrease in OP of IRG. We conclude that SMS 201-995 is useful for the treatment of portal hypertension because of its effect of reducing portal pressure with mild changes in systemic hemodynamics. We suspect that the decrease in portal venous inflow by SMS 201-995 is mainly due to a reduction in the release of glucagon, a vasodilatory gastrointestinal hormone.
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PMID:Effect of a somatostatin analogue (SMS 201-995) on hemodynamics and glucagon secretion in cirrhotic rats. 848 15

Somatostatin is used to treat variceal hemorrhage in patients with cirrhosis and portal hypertension. Its systemic hemodynamic effects, however, are not yet well defined. Since cardiomyopathy or pulmonary artery hypertension may occur in patients with cirrhosis, definition of the systemic hemodynamic effects of somatostatin or its analogue octreotide is of clinical importance. The aim of this study was to evaluate the effects of somatostatin, at different doses and under different conditions of administration, on the systemic hemodynamics in 17 patients with cirrhosis. Two sets of experiments were performed. In the first, eight patients received two different bolus doses (100 and 250 micrograms) of somatostatin. The second set of experiments was designed to study the hemodynamic effects of the combination of a bolus and an infusion of somatostatin. Nine other patients received one bolus of 250 micrograms of somatostatin, followed by a 250 micrograms/h infusion for 65 min. A second bolus of 250 micrograms of somatostatin was injected in these patients after 35 min of infusion. Before and for 30 min after each bolus, systemic hemodynamics were measured. Following a bolus of somatostatin, a dose-dependent decrease in heart rate (from 77 +/- 3 to 73 +/- 5 beats/min with 100 micrograms, and from 78 +/- 4 to 68 +/- 5 beats/min with 250 micrograms, p < 0.05) and increases in systemic and pulmonary artery pressures were observed. The combination of an infusion and a bolus of somatostatin significantly reduced the increases in systemic and pulmonary artery pressures.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Short-term cardiovascular effects of somatostatin in patients with cirrhosis. 853 92

The available pharmacological treatments for portal hypertension are reviewed. Vasoconstrictor treatments include vasopressin (VP), the synthetic VP analogue tGLVP, combined nitroglycerin (NTG)-VP, somatostatin (SRIF), SRIF analogues and non-selective beta-blockers. Vasodilator treatments include short- and long-acting organic nitrates. Infusions of VP > 1.0 U/min can cause severe side-effects. tGLVP can control variceal bleeding and improve survival and causes fewer complications than VP.SRIF is as effective as tGLVP in controlling bleeding and improving survival and has minimal side effects. Beta-blockers are effective in preventing the first variceal haemorrhage and are well tolerated.
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PMID:Pharmacological treatment of portal hypertension. 881 85

The objective of pharmacotherapy of portal hypertension is to reduce the portal pressure and the subsequent reduction of pressure and blood flow in the oesophageal varicosities in patients with portal hypertension. Pharmacological treatment is used in acute bleeding from oesophageal varices where it is a very useful first step for arresting haemorrhage and it does not require any special training or complicated equipment. Pharmacotherapy holds its place also in primary and secondary prophylaxis of oesophageal variceal bleeding. In particular a combination of pharmacotherapy with sclerotherapy is useful to reduce the occurrence of early recurrent bleeding. Among hitherto known vasoactive drugs the following ones are used most frequently: vasopressin, terlipressin, somatostatin, beta-blockers, nitrates and ACE inhibitors. Other drugs influencing portal haemodynamics are the subject of research.
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PMID:[Pharmacologic treatment of portal hypertension]. 897 62

The in-depth study of the pathophysiology of portal hypertension is the basis for a correct medical treatment. The backward-flow theory of portal hypertension stresses the importance of increased hepatic vascular resistance, while the forward-flow theory of portal hypertension underscores generalized vasodilation, the hyperdynamic circulation and increased portal inflow. The role of expanded plasma volume has been emphasized in recent studies. The aim of drug therapy is to normalize each one of these components. Vasoconstrictor agents, i.e. vasopressin, triglycyl-lysin-vasopressin, non selective beta-blockers, somatostatin and octreotide, try to normalize the increased portal inflow and to decrease porto-collateral blood flow. Venous vasodilators, e.g. nitrates, mainly act by decreasing portal blood outflow resistance. Spironolactone has been proposed to decrease plasma volume. The use of a combination of a vasoconstrictor agent and a vasodilator or spironolactone has been proposed to increase the efficacy of medical treatment.
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PMID:[Physiopathologic basis of medical therapy of portal hypertension in cirrhosis]. 900 19

Agents which decrease gastric mucosal blood flow (GMBF) are postulated to have beneficial effects in arresting gastrointestinal bleeding in cirrhotic patients with portal hypertension. Our objective was to test the hypothesis that in a dose that significantly lowers wedged hepatic venous pressure (WHVP), a bolus injection of somatostatin will significantly decrease GMBF in patients with portal hypertensive gastropathy (PHG). In this placebo-controlled, double-blind, crossover study, 20 cirrhotic patients with PHG were randomly assigned to receive either somatostatin followed by placebo (Group A) or placebo followed by somatostatin (Group B). Wedged hepatic venous pressure was monitored. GMBF in the antrum and corpus was assessed by reflectance spectrophotometry. Indices of hemoglobin concentration (IHb) and indices of oxygen content (ISO2) were recorded. Nine patients were assigned to Group A, and 11 to Group B. Mild PHG was seen in 16 patients, and severe PHG in 4 patients. Baseline WHVP, IHb, and ISO2 were similar in both treatment groups. Wedged hepatic venous pressure (WHVP) was significantly lowered [median, 17.6%; interquartile range (-27.0,-12.6%); P = 0.0008] after a 250-microg bolus injection of somatostatin. This dose of somatostatin significantly reduced IHb both in the antrum [-10.2% (-23.4, 0.4%)] and in the corpus [-5.8% (-16.6, 5.6%)] compared to placebo (P = 0.02 and 0.04, respectively). Intravenous bolus injection of 250 microg somatostatin significantly reduces WHVP and GMBF in patients with PHG. Whether this ability to decrease the GMBF in PHG makes somatostatin an effective treatment in acute gastrointestinal bleeding in PHG deserves to be studied.
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PMID:Somatostatin reduces gastric mucosal blood flow in patients with portal hypertensive gastropathy: a randomized, double-blind crossover study. 901 55

Variceal esophageal bleeding is a frequent and severe complication of portal hypertension. Balloon compression was the standard therapy for many years. Currently, endoscopic hemostasis with sclerosis or ligation appears to be more effective but requires an experienced operator who is not always present at emergency situations. Parenteral administration of vasoactive agents is one therapeutic option offering new perspectives for the future. Data in the literature suggest that terlipressin or somatostatin would be the preferential choice because of the adverse effects of vasopressin. Data is insufficient concerning sandostatin. Currently, the trend is to administer vasoactive agents as soon as possible, prior to hospitalization and, perhaps, in association with endoscopic hemostasis. Treatment should be maintained for several days although the cost/benefit ratio remains a question of debate.
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PMID:[What vasoactive agent should be chosen in rupture of esophageal varices in cirrhosis?]. 925 45

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 microg/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.
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PMID:Hemodynamic effects of the somatostatin analog lanreotide in humans: placebo-controlled, cross-over dose-ranging Echo-Doppler study. 953 29


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