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: UMLS:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of vasopressin and of its analogues on liver function, and their possible mechanisms of action, are poorly understood. This study was designed to assess the effect of triglycyl-lysin-vasopressin on liver function, evaluated by two quantitative tests independent of liver blood flow, i.e., indocyanine green intrinsic hepatic clearance and galactose elimination capacity. Indocyanine green intrinsic hepatic clearance and galactose elimination capacity were determined before and after administration of 2 mg triglycyl-lysin-vasopressin to (respectively) 10 and 12 patients with cirrhosis. Eighteen additional patients with cirrhosis were studied before and after infusion of placebo. No significant variation in either test was observed in placebo-treated patients. A significant decrease in indocyanine green intrinsic hepatic clearance, averaging 22%, was observed in patients receiving the drug (p = 0.04). Conversely, galactose elimination capacity remained unchanged after the drug. These results are compatible with the hypothesis that the drug produced a preferential decrease in perfusion in functioning areas of the liver, with relative maintenance of blood flow in non-functioning areas.
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PMID:Effect of triglycyl-lysin-vasopressin on quantitative liver function tests in patients with cirrhosis. 144 77

We measured the hemodynamic effects of intravenous vasopressin, ketanserin (a 5-hydroxytryptamine-2 receptor blocker), and vasopressin plus ketanserin in 33 patients with hepatitis B-related cirrhosis. Thirteen patients received vasopressin alone (0.66 units/min), ten patients ketanserin alone (10 mg), and ten patients vasopressin followed by vasopressin plus ketanserin. Vasopressin alone reduced the hepatic venous pressure gradient (from 18 +/- 5, mean +/- S.D., to 9 +/- 3 mmHg, p less than 0.0001) and cardiac output (p less than 0.0001), but increased mean arterial pressure (p less than 0.005), mean pulmonary arterial pressure (p less than 0.0001), pulmonary capillary wedge pressure (p less than 0.0001), and systemic vascular resistance (p less than 0.001). There was no significant change in heart rate. Ketanserin alone produced a significant fall in the hepatic venous pressure gradient (from 16 +/- 4 to 13 +/- 3 mmHg, p less than 0.0001), mean arterial pressure (p less than 0.005), mean pulmonary arterial pressure (p less than 0.005), and pulmonary capillary wedge pressure (p less than 0.005). Heart rate, cardiac output, and systemic vascular resistance were not significantly changed. The addition of ketanserin to vasopressin corrected most of the systemic hemodynamic disturbances produced by vasopressin. This combination did not lead to a further reduction in the hepatic venous pressure gradient. We conclude that intravenous ketanserin reduces portal pressure in patients with hepatitis B-related cirrhosis. The addition of ketanserin to vasopressin improves the detrimental systemic hemodynamic effects of vasopressin without further reducing the portal pressure.
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PMID:Hemodynamic effects of a combination of vasopressin and ketanserin in patients with hepatitis b-related cirrhosis. 150 56

Jejunal varices are not a common manifestation of portal hypertension. This report describes a 46-yr-old man with recurrent massive gastrointestinal bleeding from jejunal varices arising in an area of adhesions between the intestine and the omentum. The bleeding site was identified by exploratory laparotomy. Medical therapy, including vasopressin infusion via the superior mesenteric artery, was of limited success for controlling acute variceal bleeding. However, jejunal resection and anastomosis resulted in complete resolution of the bleeding, and the patient has experienced no recurrent bleeding over a 3-yr follow-up period. A review of the literature shows that this syndrome is characterized by portal hypertension, generally due to liver cirrhosis; frequently, there is a history of abdominal surgery, and the syndrome presents with hematochezia but without hematemesis. Accurate preoperative diagnosis is often difficult. We propose that bleeding from jejunal varices, though uncommon, should be considered under such clinical conditions.
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PMID:Jejunal varices as a cause of massive gastrointestinal bleeding. 155 40

The effects of vaso-active agents on hepatic function and splanchnic oxygenation were studied in 17 patients with cirrhosis and portal hypertension. Eight patients received vasopressin (0.3 iu/min) and nine patients received nitroglycerin (50 micrograms/min). Both drugs caused a significant reduction in the portal venous pressure gradient. Vasopressin infusion significantly decreased intrinsic clearance of indocyanine green (-23%, P less than 0.01). This may be due to a decreased hepatic perfusion (-28%, P less than 0.01) and portal venous oxygenation (-15% in portal venous oxygen tension, P less than 0.05). In contrast, no changes in hepatic perfusion and portal venous oxygenation were observed after nitroglycerin infusion. Nitroglycerin did not decrease intrinsic clearance of indocyanine green. These results suggest that vasodilators, rather than vasoconstrictors, might be welcome in the treatment of patients with cirrhosis and portal hypertension.
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PMID:Effects of vaso-active agents on hepatic function and blood gases in patients with cirrhosis: a study of vasopressin and nitroglycerin. 157 96

We studied the effects of the combination of nitroglycerin and vasopressin on portohepatic hemodynamics, hepatic function, and blood gases in nine patients with cirrhosis and portal hypertension. Vasopressin infusion at a dose of 0.4 U/min caused a significant fall in portal pressure, which is evaluated by portal venous pressure gradient (-34%, p less than 0.01), associated with a decrease in hepatic perfusion (-33%, p less than 0.01) and intrinsic clearance (-20%, p less than 0.01) after 30 min. The arterial oxygenation, however, was not modified (paO2; from 73 +/- 8 to 72 +/- 7 mm Hg, NS). Nitroglycerin infusion at a dose of 100 micrograms/min was then administered for 20 min. The addition of nitroglycerin produced a further reduction in free portal venous pressure (-12%, p less than 0.01), but this was not associated with a significant improvement in both hepatic perfusion (+16%, NS) and intrinsic clearance (-7%, NS). In addition, there was a significant fall in arterial oxygenation (paO2; from 72 +/- 7 to 59 +/- 5 mm Hg, p less than 0.01). We conclude that the addition of nitroglycerin to vasopressin has a beneficial effect on free portal venous pressure, but does not have hepatic benefit. Moreover, sufficient care must be taken, when treating portal hypertension with this combination, to avoid arterial hypoxemia.
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PMID:Portohepatic pressures, hepatic function, and blood gases in the combination of nitroglycerin and vasopressin: search for additive effects in cirrhotic portal hypertension. 159 Mar 7

Vasopressin has been found to impair hepatic function in patients with cirrhosis. The aim of this study was to investigate whether oxygen inhalation could improve hepatic function during vasopressin infusion. Vasopressin (0.3 iu/min) was infused into eight patients with cirrhosis for 50 min. During the first 30 min they were ventilated by room air and for the following 20 min by oxygen (approximate 50% of FiO2). The extra oxygen inhalation caused a typical increase in arterial (+7%, P less than 0.01), portal venous (+8%, P less than 0.05), and hepatic venous (+9%, P less than 0.01) oxygen content. No effect was noted in arterio-hepatic venous and portal venous-hepatic venous oxygen content difference in comparison with the values after vasopressin alone. The hepatic perfusion remained unchanged. These results suggest that the extra oxygen did not increase hepatic oxygen uptake. Similarly, intrinsic clearance of indocyanine green did not improve. It is concluded that oxygen supplement in this setting has no hepatic benefit in patients with cirrhosis.
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PMID:Lack of hepatic benefit by oxygen inhalation during vasopressin infusion in patients with cirrhosis. 161 Oct 13

In this chapter the surgical management of bleeding oesophageal varices, ruptured hepatocellular carcinoma and fulminant liver failure have been discussed. Bleeding oesophageal varices can usually be successfully treated with vasopressin, balloon tamponade and injection sclerotherapy. Emergency surgery should be considered if two courses of injection sclerotherapy have failed to achieve haemostasis. Stapled oesophageal transection and portosystemic shunting are currently the two most popular procedures. The former is associated with a lower morbidity and mortality as well as a lower incidence of subsequent encephalopathy. Ruptured hepatocellular carcinomas are usually associated with liver cirrhosis and impaired liver function. Selective coeliac axis cannulation followed by embolization of the hepatic artery branches supplying the tumour is an effective method of achieving haemostasis and is associated with a lower morbidity and mortality than emergency hepatic artery ligation or liver resection. If haemostasis is achieved by embolization the patient may subsequently be assessed for an elective resection of the tumour. Fulminant liver failure may be managed by supportive medical therapy or orthotopic liver transplantation. Patients whose liver failure is graded as mild (grade I) should be treated by medical therapy, whereas those with severe liver damage (grades III and IV) should be assessed for transplantation. Accurate monitoring of the patient's clinical progress and prognostic indicators are vital in deciding whether conservative treatment should be continued or liver transplantation performed.
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PMID:Surgical emergencies in liver disease. 166 53

The clinical course of patients with cirrhosis of the liver is frequently complicated by progressive impairment of renal sodium handling leading to the formation of ascites. The occurrence of ascites is generally accompanied by the activation of several hormones and intrarenal autacoids and a complex derangement of systemic, portal and renal hemodynamics. The earliest "underfilling" theory of sodium retention proposes that ascites formation leads to hypovolemia and secondary sodium retention. According to the "overflow" theory, ascites formation is a secondary event with respect to sodium retention, which occurs as a primary phenomenon in the absence of hypovolemia. A third recently developed theory suggests that peripheral arteriolar vasodilation is the primary event of intravascular underfilling. The major documented site involved in arteriolar vasodilation is the splanchnic circulation. Occurrence of underfilling is not related to a reduction of plasma volume but to the enlargement of the vascular compartment. Vascular underfilling triggers a series of hemodynamic and hormonal compensatory events such as an increase in cardiac output and plasma volume, activation of the renin-angiotensin-aldosterone and sympathetic nervous system and non-osmotic hypersecretion of antidiuretic hormone and sodium retention, all of which aim at refilling the vascular compartment. In patients with compensated cirrhosis, i.e. without ascites, compensatory events maintain blood volume despite vascular underfilling, and so these patients do not develop ascites. In patients with decompensated cirrhosis, vascular underfilling due to arterial vasodilation, together with a reduced oncotic pressure and a severe degree of portal hypertension, favours the development of ascites. Underfilling of the arterial circulation is at its maximum in functional renal failure and the hepatorenal syndrome.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ascites in liver diseases. 174 50

Angiotensin II blockade with saralasin in human cirrhosis with ascites is associated with a significant reduction in arterial pressure, indicating that endogenous angiotensin II plays an important role in the maintenance of systemic hemodynamics in this condition. The aim of the current study was to investigate whether vasopressin also contributes to the maintenance of arterial pressure in cirrhosis with ascites. The study was performed using three groups of cirrhotic rats with ascites and three groups of control animals. The administration of d(CH2)5Tyr(Me)AVP, a selective antagonist of the vascular effect of vasopressin, to 10 cirrhotic rats induced a significant reduction in mean arterial pressure (from 94 +/- 4 to 85 +/- 4 mm Hg; P less than 0.001) and a significant increase in plasma renin activity (from 24.3 +/- 4.9 to 34.3 +/- 5.9 ng/mL.h; P less than 0.02) and plasma norepinephrine concentration (from 1474 +/- 133 to 2433 +/- 253 pg/mL; P less than 0.01). Similar results were observed following saralasin administration in a second group of 5 cirrhotic rats [mean arterial pressure decreased from 97 +/- 4 to 85 +/- 5 mm Hg (P less than 0.0001); and plasma renin activity and norepinephrine concentration increased from 18.4 +/- 5.8 to 40.3 +/- 5.7 ng/mL.h (P less than 0.02) and from 1383 +/- 70 to 2312 +/- 334 pg/mL (P less than 0.05), respectively]. The simultaneous blockade of angiotensin II and vasopressin in a third group of cirrhotic rats resulted in a significantly greater reduction of mean arterial pressure (from 97 +/- 6 to 74 +/- 6 mm Hg; P less than 0.05). No changes in arterial pressure were observed in the three groups of control rats. These findings indicate that endogenous vasopressin is as important as angiotensin II in the maintenance of arterial pressure in cirrhotic rats with ascites and support the contention that arterial hypotension is the initial event leading to the stimulation of the renin-angiotensin system and vasopressin in this animal model of cirrhosis.
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PMID:Effect of V1-vasopressin receptor blockade on arterial pressure in conscious rats with cirrhosis and ascites. 182 29

In 11 patients with decompensated cirrhosis and deteriorating renal function, the effect of the vasoconstrictor substance 8-ornithin vasopressin (ornipressin; POR 8; Sandoz, Basel, Switzerland) on renal function, hemodynamic parameters, and humoral mediators was studied. Ornipressin was infused at a dose of 6 IU/h over a period of 4 hours. During ornipressin infusion an improvement of renal function was achieved as indicated by significant increases in inulin clearance (+65%), paraaminohippuric acid clearance (+49%), urine volume (+45%), sodium excretion (+259%), and fractional elimination of sodium (+130%). The hyperdynamic circulation was reversed to a nearly normal circulatory state. The increase in systemic vascular resistance (+60%) coincided with a decrease of a previously elevated renal vascular resistance (-27%) and increase in renal blood flow (+44%). The renal fraction of the cardiac output increased from 2.3% to 4.7% (P less than 0.05). A decline of the elevated plasma levels of noradrenaline (2.08-1.13 ng/mL; P less than 0.01) and renin activity (27.6-14.2 ng.mL-1.h-1; P less than 0.01) was achieved. The plasma concentration of the atrial natriuretic factor increased in most of the patients, but slightly decreased in 3 patients. The decrease of renal vascular resistance and the increase of renal blood flow and of the renal fraction of cardiac output play a key role in the beneficial effect of ornipressin on renal failure. These changes develop by an increase in mean arterial pressure, the reduction of the sympathetic activity, and probably of an extenuation of the splanchnic vasodilation. A significant contribution of atrial natriuretic factor is less likely. The present findings implicate that treatment with ornipressin represents an alternative approach to the management of functional renal failure in advanced liver cirrhosis.
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PMID:Ornipressin in the treatment of functional renal failure in decompensated liver cirrhosis. Effects on renal hemodynamics and atrial natriuretic factor. 183 7


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