UMLS:C0023890 - FACTA Search

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

The treatment of patients with cirrhosis and fluid overload has undergone substantial change in recent years, because of new information regarding old treatments, as well as new treatments. The goals of treatment are to maximize life expectancy and quality of life. Development of ascites is a landmark in the natural history of cirrhosis signaling poor life expectancy, in general. Patients who are appropriate candidates for liver transplantation should undergo evaluation for this procedure after development of ascites. Patients awaiting transplantation as well as non-candidates for this procedure should be managed by restriction of dietary sodium and prescription of diuretics. This approach is effective in controlling fluid overload in > 90% of patients. Only the 10% who fail this simple medical treatment should be considered for second-line therapy.
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PMID:Treatment of patients with cirrhosis and ascites. 930 29

Coagulopathy in patients with liver disease results from impairments in the clotting and fibrinolytic systems, as well as from reduced number and function of platelets. Parenteral vitamin K replacement corrects coagulopathy related to biliary obstruction, bacterial overgrowth, or malnutrition. Vitamin K is less effective for coagulopathy caused by severe parenchymal liver injury. Transfusion of fresh frozen plasma is the hallmark of treatment of significant coagulopathy in patients with liver disease and active bleeding. Transfusion of fresh frozen plasma also reverses moderate to severe coagulopathy of cirrhosis prior to invasive procedures. Cryoprecipitate is useful for severe coagulopathy with hypofibrinogenemia, especially when avoidance of volume overload is desired. Exchange plasmapheresis is useful in selected patients with coagulopathy due to liver disease, in whom fresh frozen plasma fails to correct coagulopathy or in patients who have coexistent severe fluid overload. Platelet transfusions, pooled or single donor, are useful in thrombocytopenic patients prior to performing invasive procedures or in the presence of significant bleeding, especially when the platelet count is below 50,000/mL. The use of recombinant factor VIIa and thrombopoietin therapy for correction of coagulopathy and thrombocytopenia, respectively, in patients with cirrhosis, is currently under investigation. Therapy with prothrombin complex concentrates, 1-deamino-8-d-arginine vasopressin and antithrombin III concentrates for the management of coagulopathy caused by liver disease can be hazardous and the use of these products is considered investigational at the present time.
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PMID:Coagulopathy of Liver Disease. 1109 2

Malnutrition is a frequent complication of cirrhosis, and many studies have demonstrated the adverse influence of malnutrition on clinical outcomes in patients with cirrhosis. The coexisting complications of fluid overload and ascites may mask the severity of malnutrition, particularly in the early stages of its development. During periods of decompensation, protein and energy requirements are higher, and many patients have inadequate nutritional intake at these times. Further, protein supplementation should not be restricted ad hoc in cirrhotic patients, as for the vast majority of patients dietary protein does not precipitate hepatic encephalopathy. The impairment of hepatic glycogen storage in cirrhotic patients effects a state of accelerated starvation with catabolism of fat and protein to provide substrates for gluconeogenesis. Recent studies have demonstrated the efficacy of nocturnal nutritional supplements in improving nitrogen balance. Resistance to the actions of the anabolic growth factors insulin and growth hormone (GH) is common in cirrhosis, and recent studies have shown that GH resistance, in particular, may be overcome with exogenous GH therapy. Hypermetabolism may be observed in up to one-third of cirrhotic patients. The recent exciting observation that beta-blocker therapy can decrease energy expenditure and catecholamine levels in these patients indicates the need for further intervention studies of beta-blockers as metabolic therapy in cirrhosis.
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PMID:Issues of malnutrition and bone disease in patients with cirrhosis. 1198 28

The mechanism by which ascites develops in cirrhosis is multifactorial Severe sinusoidal portal hypertension and hepatic insufficiency are the initial factors. They lead to a circulatory dysfunction characterized by arterial vasodilation, arterial hypotension, high cardiac output and hypervolemia and to renal sodium and water retention. There are evidences that arterial vasodilation in cirrhosis occurs in the splanchnic circulation and is related to an increased synthesis of local vasodilators. Vascular resistance is normal or increased in the remaining major vascular territories (kidney, muscle and skin and brain). Splanchnic arterial vasodilation not only impairs systemic hemodynamics and renal function but also alters hemodynamics in the splanchnic microcirculation. The rapid and high inflow of arterial blood into the splanchnic microcirculation is the main factor increasing hydrostatic pressure in the splanchnic capillaries leading to an excessive production of splanchnic lymph over lymphatic return. Lymph leakage from the liver and other splanchnic organs is the mechanism of fluid accumulation in the abdominal cavity. Continuous renal sodium and water retention perpetuates ascites formation. Large volume paracentesis associated with albumin infusion is the treatment of choice of tense ascites because it is very effective and rapid and is associated with fewer complications that the traditional treatment (sodium restriction and diuretics). However, diuretic should be given after paracentesis to prevent reaccumulation of ascites. In patients with moderate ascites diuretics should be preferred as initial therapy. Patients with refractory ascites could be treated by paracentesis or percutaneous transjugular portacaval shunt (TIPS). TIPS is more effective in the long term control of ascites but may impair hepatic function and induce chronic hepatic encephalopathy.
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PMID:Pathophysiology, diagnosis and treatment of ascites in cirrhosis. 1511 71

Hyponatremia, the most common electrolyte disorder, occurs frequently in older people and in hospitalized patients. Physiological changes of aging that interact with diseases and drugs commonly present in older people put this population at greater risk for hyponatremia. It can accompany central nervous system disorders, pulmonary and renal disease, cancer, congestive heart failure, and liver cirrhosis, as well as many commonly used drugs. Delayed recognition can lead to symptomatic hyponatremia with consequent cerebral edema and possibly irreversible neurological damage. Symptoms and signs of hyponatremia may be subtle or not attributed to hyponatremia. Most cases are of the euvolemic type, in which extracellular fluid volume is normal and is often due to the syndrome of inappropriate secretion of antidiuretic hormone. Hyponatremia can also occur in association with hypervolemia or hypovolemia. Common to all of these circumstances is increased secretion of arginine vasopressin (AVP). Understanding of the pathophysiological basis of hyponatremia and of brain compensatory mechanisms is critical to safe treatment. Fluid restriction or infusion of hypertonic saline can improve symptoms and normalize serum sodium levels but does not address excess AVP, which in most cases is the underlying cause of the disorder. A major new approach to treatment of hyponatremia is the development of aquaretics: AVP-receptor antagonists that provide a targeted therapeutic approach to correcting the many kinds of hyponatremia caused by excess AVP levels.
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PMID:Hyponatremia and arginine vasopressin dysregulation: mechanisms, clinical consequences, and management. 1697 Jun 67

Two patients with cirrhosis (CIR), ascites (ASC), and peripheral oedema (PEROD) are presented. They were followed for many years, had multiple hospital admissions and clinic evaluations, had repeated laboratory testing, and many ECGs recorded. As their condition worsened, they developed attenuation of the ECG voltage (ATTECGV), which was more pronounced during intervals of increased fluid overload. Attenuation of the ECG voltage was decreased at times of successful diuresis and amelioration of PEROD, while abdominal paracenteses for ASC did not have any influence on the ATTECGV, suggesting that ATTECGV in patients with CIR is due to the associated PEROD, and not to ASC.
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PMID:Attenuation of ECG voltage in cirrhotic patients. 1734 8

Arginine vasopressin (AVP) is a neuropeptide hormone that plays an important role in circulatory and sodium homeostasis, and regulating serum osmolality. Several clinical conditions have been associated with inappropriately elevated levels of AVP including heart failure, cirrhosis of the liver and the syndrome of inappropriate secretion of antidiuretic hormone. Three receptor subtypes that mediate the actions of AVP have been identified (V(1A), V(2) and V(1B)). Activation of V(1A) receptors located in vascular smooth muscle cells and the myocardium results in vasoconstriction and increased afterload and hypertrophy. The V(2) receptors located primarily in the collecting tubules mediate free water absorption. The V(1B) receptors are located in the anterior pituitary and mediate adrenocorticotropin hormone release. The cardiovascular and renal effects of AVP are mediated primarily by V(1A) and V(2) receptors. Antagonism of V(1A) receptors results in vasodilatation and antagonism of V(2) receptors resulting in aquaresis, an electrolyte-sparing water excretion. Several non-peptide AVP antagonists (vasopressin receptor antagonists [VRAs]) also termed 'vaptans' have been developed and are vigorously being studied primarily for treating conditions characterised by hyponatraemia and fluid overload. Conivaptan is a combined V(1A)/V(2)-receptor antagonist that induces diuresis as well as haemodynamic improvement. It has been shown in clinical trials to correct euvolaemic and hypervolaemic hyponatraemia, and has been approved by the US FDA for the treatment of euvolaemic hyponatraemia as an intravenous infusion. Tolvaptan, a selective V(2)-receptor antagonist, has undergone extensive clinical studies in the treatment of hyponatraemia and heart failure. It has been shown to effectively decrease fluid in volume overloaded patients with heart failure and to correct hyponatraemia. A large outcome study (n = 4133 patients) will define its role in the management of heart failure. Lixivaptan and satavaptan (SR-121463) are other selective V(2)-receptor antagonists being evaluated for the treatment of hyponatraemia. In addition, a potential role for the vaptans in attenuating polyuria in nephrogenic diabetes insipidus and cyst development in polycystic kidney disease is being explored. Ongoing clinical trials should further define the scope of the potential therapeutic role of VRAs.
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PMID:Therapeutic potential of vasopressin receptor antagonists. 1742 3

Cirrhosis is the most common cause of ascites and accounts for almost 85% of all cases. It is the most common complication of cirrhosis, after development of ascites only 50% of patients will survive for 2 to 5 years. Successful treatment is dependent on accurate diagnosis of the cause of ascites. Because sodium and water retention is the basic abnormality leading to ascites formation, restriction of sodium intake and enhancing sodium excretion is the mainstay of the treatment of ascites. Patients with cirrhosis and ascites must limit sodium intake to 2 gram per day. Enhancement of sodium excretion can be accomplished by usage of oral diuretics. The recommended initial dose is spironolactone 100-200 mg/d and furosemide 20-40 mg/d. usual maximum doses are 400 mg/d of spironolactone and 160 mg/d of furosemide. The recommended weight loss in patients without peripheral edema is 300 to 500 g/d. There is no limit to the daily weight loss of patients who have edema. About 90% of patients respond well to medical therapy for ascites. Refractory ascites is defined as fluid overload that is unresponsive to sodium restricted diet and high dose diuretic treatment (diuretic resistant) or when there is an inability to reach maximal dose of diuretics because of adverse effects (diuretic-intractable). It has a poor prognosis. Treatment options for patients with refractory ascites are serial therapeutic paracentesis, transjugular intrahepatic stent-shunt (TIPS) or peritoneovenous shunt and liver transplantation. TIPS should be considered in patients who repeatedly fail large-volume paracentesis and have relatively preserved liver functions. Liver transplantation is the only modality that is associated with improved survival.
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PMID:Treatment of cirrhotic ascites. 1771 38

Diuretics are pharmacological agents that increase natriuresis through inhibition of tubular re-absorption of sodium. The mechanisms and site of this inhibition differ with each drug class, accounting for their additive effects on natriuresis increase and their hydroelectrolytic side effects. The response to a given diuretic dose depends on the diuretic concentration on the urine at its action site. This concentration may be decreased by pharmacokinetic factors such as encountered in renal insufficiency or in nephrotic syndrome. These resistance mechanisms of diuretics may be corrected by dose increase, previous diuretic fixation on albumin or warfarin administration. Once these mechanisms are opposed, the diuretic concentration for maximal efficacy is reached at is action site and the natriuresis obtained as the normal maximal plateau. This is not the case when an oedematous systemic disease with effective hypovolemia is present, like in heart failure or cirrhosis, or when chronic use of loop diuretics has induced a hypertrophy of the more distant part of the tubule. In theses cases, a pharmacodynamic resistance exists, resulting in a lower maximal natriuresis plateau in spite of adequate concentration of the diuretic at its action site, even in the absence of pharmacokinetic resistance factors. The main indications of diuretics are systemic oedematous disease and hypertension. In the oedematous diseases, diuretics indication is both straightforward and sufficient only if effective hypervolemia is present. The therapeutic approach is discussed according to the various clinical conditions and pathophysiological background. In uncomplicated hypertension, diuretics are the cornerstone of the therapy. The most suitable diuretic treatment for hypertension is an association of low doses thiazide (12.5-50 mg/day) with potassium sparing diuretics. Rare indications of diuretics are also reviewed.
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PMID:[Diuretic-based therapy]. 1791 42

Inappropriate vasopressin (AVP) release causes dilutional hyponatremia in many pathophysiological states such as cirrhosis. The central molecular mechanisms that mediate inappropriate AVP release are unknown. We tested the hypothesis that changes in the expression or trafficking of TRPV4 in the central nervous system may contribute to inappropriate AVP release in the bile duct ligation (BDL) model of cirrhosis in the rat. Four weeks after surgery, BDL rats demonstrated significantly increased plasma vasopressin and plasma renin activity (PRA), hypervolemia, and decreased plasma osmolality. These effects were blocked by providing BDL rats with 2% saline to drink for 15 days. TRPV4 protein expression was significantly increased in brain punches from BDL rats containing the supraoptic nucleus (SON) of the hypothalamus (100% +/- 11 to 157% +/- 4.8), and this effect was blocked in BDL rats given saline. Immunohistochemistry demonstrated a significant increase in TRPV4-positive cells and the percentage of AVP neurons that also were TRPV4-positive in the SON of BDL rats. In the hypothalamus of BDL rats, TRPV4 lipid raft association increased compared with sham (from 100% +/- 2.1 to 326.1% +/- 16). This effect was significantly attenuated in BDL rats given 2% saline to drink (174% +/- 11). In the brain stem, TRPV4 lipid raft association was reduced by BDL and inversely related to plasma AVP and PRA. We speculate that changes in TRPV4 expression and compartmentalization within lipid rafts could contribute to a feed-forward mechanism related to AVP release in cirrhosis.
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PMID:Altered central TRPV4 expression and lipid raft association related to inappropriate vasopressin secretion in cirrhotic rats. 1909 9

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