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

Hepatic cirrhosis with portal hypertension and gastroesophageal hemorrhage is a disease complex that continues to be treated by surgical portasystemic shunts. Whether or not a reduction or diversion of portal blood flow to the liver adversely affects the ability of the liver to maintain fuel homeostasis via gluconeogenesis, glycogenolysis, and ketogenesis is unknown. 11 patients with biopsy-proven severe hepatic cirrhosis were studied before and after distal splenorenal or mesocaval shunts. Hepatic, portal, and renal blood flow rates and glucose, lactate, pyruvate, glycerol, amino acids, ketone bodies, free fatty acids, and triglyceride arteriovenous concentration differences were determined to calculate net precursor-product exchange rates across the liver, gut, and kidney. The study showed that hepatic contribution of glucose and ketone bodies and the caloric equivalents of these fuels delivered to the blood was not adversely affected by either a distal splenorenal or mesocaval shunt. In addition to these general observations, isolated findings emerged. Mesocaval shunts reversed portal venous blood and functionally converted this venous avenue into hepatic venous blood. The ability of the kidney to make a substantial net contribution of ketone bodies to the blood was also observed.
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PMID:Hepatic and renal metabolism before and after portasystemic shunts in patients with cirrhosis. 404 31

Splanchnic arteriovenous differences for several intermediary metabolites of carbohydrate and lipid metabolism were determined simultaneously with hepatic blood flow in seven normal subjects, eight patients with cirrhosis, and six patients with cirrhosis after surgical portosystemic shunt ( SPSS ) after an overnight fast. Arteriovenous differences in the legs were also determined together with flux measurement. The individual turnover rates of acetoacetate (AcAc) and 3 hydroxybutyrate (beta OHB) were also determined by means of isotopic techniques. Splanchnic gluconeogenic precursors and FFA uptakes were lower in cirrhotic patients with SPSS than in normal subjects (P less than 0.05 and P less than 0.01, respectively). Splanchnic triglyceride output was also lower in cirrhotic patients with SPSS than in normal subjects (P less than 0.01), whereas no significant differences were found for AcAc, beta OHB, and glucose release. In the group of cirrhotic patients without SPSS , those patients with negligible signs of portal systemic shunt and normal splanchnic blood flow had uptake of gluconeogenic precursors and of FFA normal or higher than that of normal subjects, whereas those patients with signs of spontaneous portal systemic shunt behaved like cirrhotic patients with SPSS . Alanine release from the leg was lower in both cirrhotic patient groups. Tracer determined hepatic output of AcAc and beta OHB was higher in cirrhotic patients with SPSS (P less than 0.05). Plasma clearance rates of AcAc and beta OHB were significantly elevated in both cirrhotic patient groups. Close agreement was found between tracer and catheterization techniques in the evaluation of ketone body production in cirrhotic patients with SPSS , whereas in cirrhotic patients without SPSS tracer determined hepatic output was slightly lower, possibly because of extrahepatic splanchnic tissue ketone body uptake. In conclusion, our data in patients with cirrhosis indicate that: 1) splanchnic uptake of gluconeogenic precursors and of FFA was related to the degree of portal systemic shunt, e.g. to the degree of effective hepatic blood flow; 2) liver triglyceride but not ketone body output was decreased by the impaired FFA (and glycerol) liver uptake; 3) the higher circulating levels of gluconeogenic precursors (except alanine) and of FFA appeared at least partially due to lower hepatic removal of these metabolites; and 4) peripheral use of ketone bodies was increased and alanine release from the leg reduced in patients with cirrhosis.
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PMID:Carbohydrate and lipid metabolism in cirrhosis. Evidence that hepatic uptake of gluconeogenic precursors and of free fatty acids depends on effective hepatic flow. 637 11

Circulating hormone and metabolite profiles have been studied in ten patients with alcoholic cirrhosis, five patients with alcoholic hepatitis and/or fatty liver, and nine normal controls over a 12-h period of meals and activity. Blood glucose was elevated throughout the day in both cirrhotic and non-cirrhotic alcoholics (mean 12-h glucose; controls 5.38 +/- 0.16 (SEM) mmol/l; cirrhotics 6.98 +/- 0.30 mmol/l, P less than 0.001; non-cirrhotics 7.18 +/- 0.26 mmol/l, P less than 0.001). Non-cirrhotic alcoholics had an exaggerated insulin response to meals, whereas cirrhotic patients had hyperinsulinaemia throughout the day (mean 12-h insulin; controls 16.3 +/- 2.3 mU/l; cirrhotics 35.8 +/- 6.6 mU/l, P less than 0.02). Growth hormone levels were elevated only in patients with cirrhosis (mean 12-h growth hormone, 7.06 +/- 1.35 v. 0.85 +/- 0.17 micrograms/l, P less than 0.001). Serum cortisol was persistently elevated in cirrhotics but only in the evening in non-cirrhotic alcoholics. Lactate and pyruvate responses to meals were exaggerated in non-cirrhotic patients whereas in cirrhotics, levels were persistently raised. Blood glycerol was elevated in all alcoholic patients whereas ketone body levels were normal. Hypertriglyceridaemia was observed only in non-cirrhotic patients. No relationship between the endocrine and metabolic state was observed in either cirrhotic or non-cirrhotic patients.
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PMID:Hormone and metabolite profiles in alcoholic liver disease. 641 54

To study the effects of alcoholic liver injury on the ability of ethanol to promote hepatic fat accumulation and hyperlipemia, baboons were pair-fed liquid diets containing 50% of energy either as ethanol or as additional carbohydrate (controls) for 1 to 7 years. Alcohol consumption produced triacylglycerol accumulation in the liver, hypertriacylglyceridemia, and various degrees of liver injury, including cirrhosis. At the early stages of fatty liver (with or without perivenular fibrosis), there was increased activity of microsomal diacylglycerol acyltransferase and of both microsomal and cytosolic phosphatidate phosphohydrolase, with no changes in glycerol-3-phosphate acyltransferase. With progression of the liver injury and development of septal fibrosis and/or cirrhosis, the rate of hepatic triacylglycerol accumulation and the magnitude of the hyperlipemia decreased, despite continuous ethanol intake. These changes were associated with disappearance of the increases in microsomal diacylglycerol acyltransferase and cytosolic phosphatidate phosphohydrolase activities, whereas those of microsomal phosphatidate phosphohydrolase remained elevated and glycerol-3-phosphate acyltransferase was unaffected. Thus, changes in the activity of two enzymes of the triacylglycerol-synthesizing pathway, namely the microsomal diacylglycerol acyltransferase and the cytosolic phosphatidate phosphohydrolase, may contribute to the differences in the rate of hepatic triacylglycerol accumulation and the degree of hyperlipemia during progression of the alcoholic liver damage.
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PMID:Hepatic triacylglycerol synthesizing activity during progression of alcoholic liver injury in the baboon. 649 27

The hormonal and metabolic response to 50 g oral glucose has been studied in fifteen patients with hepatic cirrhosis and seven control subjects. Fasting blood glucose concentration was similar in both groups but cirrhotics showed higher glucose levels throughout the glucose tolerance test. Fasting serum insulin concentration was raised in the patient group (0.12 +/- 0.02 vs 0.07 +/- 0.01 nmol/l, p less than 0.05 and hyperinsulinaemia persisted after oral glucose. Blood lactate and pyruvate concentrations were elevated in cirrhotic patients, both fasting and post-glucose, while mean blood lactate correlated with mean serum insulin concentrations (rs 0.55, p less than). Plasma glucagon concentrations although highly variable, did not differ significantly in control and cirrhotic subjects before or after oral glucose. Fasting blood glycerol was increased in the patient group (O.11 +/- 0.01 vs 0.06 +/- 0.01 mmol/l, p less than 0.05) but fasting blood ketone body levels were normal and both glycerol and ketone body concentrations fell normally after glucose. Basal serum cortisol levels were similar in patient and control groups but the expected fall in cortisol concentration found in the control group over the test period was absent in cirrhotics. The hormonal and metabolic abnormalities did not correlate with severity of disease assessed by liver function test and abnormalities were not related to the presence or absence of portal-systemic shunting.
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PMID:Hormonal and metabolic changes in hepatic cirrhosis. 703 86

With the use of microsurgical procedures, sequential studies have been done to compare the short and long term outcome of the bile duct and the femoral vein as autogenous bioprostheses of the bile duct. Nonpretreated grafts of both types are associated with an early superficial cell loss, either epithelial or endothelial. An initial biliary sludge resulted with further consequences, that in biliary stasis, lithiasis and biliary cirrhosis. Both grafted ducts became epithelialized but were the site of an extensive inflammatory reaction followed by fibrosis within the underlying connective tissue and retraction of the graft. On the contrary, pretreatment of the grafts by immersion in concentrated glycerol allowed the initial cell shedding to occur before implantation. The process of epithelialization and glandular formation was not altered in these conditions, whereas the inflammatory and fibrotic reaction in the duct wall was reduced or absent.
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PMID:Effects of glycerol pretreatment upon biliary or venous grafts in bile duct replacement. 722 44

The roles of liver, kidney, and gut in maintaining fuel homeostasis were studied in 28 patients with severe hepatic cirrhosis, 25 of whom had alcohol-induced cirrhosis. Hepatic, portal, and renal blood flow rates were measured and combined with substrate concentration differences across liver, gut, and kidney to calculate the net flux of free fatty acids, ketone bodies, triglycerides, and glucose with selected glucose precursors, including glycerol, lactate, pyruvate, and amino acids. Data from the catheterization studies were related to hepatic histology, glycogen content, and activities of gluconeogenic enzymes and compared with data obtained from control patients. The effects of food deprivation on net flux of fuels across the liver, gut, and kidney were assessed after overnight and after 3d of fasting. Activities of gluconeogenic enzymes were normal, but hepatic glycogen content was diminished in cirrhotic livers, probably as a consequence of extensive hepatic fibrosis. Extrahepatic splanchnic tissues (gut) had only a small influence on total splanchnic flux rates of carbohydrates, lipids and, amino acids. In cirrhotic patients, there was no mean renal glucose contribution to the bloodstream after an overnight or after a 3-d fast. After an overnight fast hepatic glucose production in patients with cirrhosis was diminished as a result of low-rate glycogenolysis. Hepatic gluconeogenesis and ketogenesis were increased. This pattern of hepatic metabolism mimics that seen in "normal" patients after more advanced stages of starvation. After 3 d of starvation, patients with hepatic cirrhosis have hepatic gluconeogenic and ketogenic profiles comparable to those of normal patients undergoing starvation of similar duration. Nevertheless, the total number of caloric equivalents derived from ketone bodies plus glucose corrected for recycled lactate and pyruvate added to the bloodstream by the cirrhotic livers that could be terminally oxidized by peripheral tissues was less than the contributions made by the normal livers, both after and overnight and after a 3-d fast.
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PMID:Hepatic, gut, and renal substrate flux rates in patients with hepatic cirrhosis. 725 61

Oral glucose tolerance was tested in a heterogeneous group of 108 patients with liver cirrhosis. Data were compared with those from 181 subjects without liver disease (44% normal, 35% impaired glucose tolerance and 21% type 2 diabetes mellitus). In cirrhosis, 27% of the patients had normal, 36% had impaired glucose tolerance, and 37% were diabetic. There was no association between glucose intolerance or diabetes and the aetiology of cirrhosis, the duration of the disease, the biochemical indicators of hepatocyte damage, cholestasis and/or liver function. Only weak associations were found between the results of quantitative liver functions tests (caffeine, xylocaine, indocyanine green) and basal and post load glucose and insulin concentrations. Cirrhotics with 1st degree relatives with type 2 diabetes mellitus (n = 16) did not show an increased prevalence of diabetes. Older and/or malnourished patients were more frequently glucose intolerant. Using the plasma glucose concentration 120 minutes after glucose load as the dependent variable, multivariate regression analysis showed that 54% of its variance is associated with the following variables: basal plasma glucose (36%) and free fatty acid concentration (5%), age (3%), basal glucose oxidation rate (3%), muscle mass (3%) and plasma free glycerol at 120 minutes after glucose load (3%). By contrast, the clinical state of the patients (i.e. the CHILD-Pugh score) accounted for only 2% of the variance. We conclude that glucose tolerance is variable in cirrhosis. After manifestation of liver disease, glucose intolerance or diabetes cannot be explained by the clinical, histological or biochemical signs of liver disease.
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PMID:Glucose intolerance in liver cirrhosis: role of hepatic and non-hepatic influences. 786 13

Fasting patients with cirrhosis have high plasma non-esterified fatty acids, and a high turnover and oxidation of non-esterified fatty acids, despite high plasma insulin levels. To assess whether increased non-esterified fatty acid availability impairs utilisation of circulating glucose, and contributes to the insulin insensitivity in cirrhosis, we measured glucose, non-esterified fatty acid and glycerol flux rates, in patients with cirrhosis and controls, in the basal state and during a 0.05 U.kg-1.h-1 hyperinsulinaemic euglycaemic clamp. After an overnight fast, basal blood glucose and glucose turnover were similar in both groups. Basal plasma glycerol and non-esterified fatty acid levels were higher in patients with cirrhosis as were 1-14C-nonesterified fatty acid turnover (4.48 +/- 0.53 vs 2.54 +/- 0.45 mumol.kg-1.min-1, p < 0.05) and 2H5-glycerol turnover (3.27 +/- 0.34 vs 2.24 +/- 0.15 mumol.kg-1.min-1, p < 0.05), indicating increased lipolysis in patients with cirrhosis; metabolic clearance rate of non-esterified fatty acids and glycerol were similar in both groups, suggesting no impairment of tissue uptake in patients. The euglycaemic clamp showed patients with cirrhosis to be markedly insensitive to insulin. The glucose metabolic clearance rate increased during the clamp in controls (p < 0.005) but not in patients with cirrhosis, indicating that infused insulin had little or no effect on glucose disposal in the patients. Clamp glucose turnover in controls was higher than in the basal state (p < 0.001); in patients with cirrhosis it was lower. The profound insulin insensitivity and the clamping of blood glucose below fasting levels explains the fall in glucose turnover in patients with cirrhosis during the clamp. In both groups serum non-esterified fatty acid and glycerol levels, and their appearance rates, were suppressed during the clamp, but levels remained significantly higher in patients with cirrhosis (non-esterified fatty acids, 0.20 +/- 0.4 vs 0.10 +/- 0.01 mmol/l, p < 0.05; glycerol 74 +/- 9 vs 46 +/- 4 mumol/l, p < 0.05). This, with the high basal non-esterified fatty acid and glycerol levels seen in patients with cirrhosis, despite high insulin levels, suggests resistance of adipose tissue lipolysis to insulin. There was no correlation between glucose infusion requirements and non-esterified fatty acid turnover. The normal turnover of blood glucose in fasting patients with cirrhosis, despite increased non-esterified fatty acid turnover, suggests utilisation mainly by tissues with an obligatory requirement for glucose, which may be similar in patients with cirrhosis and controls.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Lipid metabolism and insulin resistance in cirrhosis. 793 Apr 79

We used isotope dilution techniques (constant intravenous [IV] infusion of 2-3H-glycerol and 1-14C-palmitate) and indirect calorimetry to measure lipid kinetics and substrate oxidation rates during IV fructose administration at 200 and then 500 mg/kg/h in eight cirrhotic patients and seven normal control subjects. Fasting plasma glucose, glycerol, and glycerol appearance rate (Ra) were similar in both groups, but insulin levels were fourfold higher in cirrhotics (P < .01). Fasting serum nonesterified fatty acid (NEFA) levels (cirrhotics, 869 +/- 124, controls, 717 +/- 90 mumol/L) and NEFA Ra (7.1 +/- 0.8 v 5.5 +/- 0.9 mumol/min/kg) were higher in cirrhotics, but the differences were not significant. Plasma fructose was similar in both groups at both fructose infusion rates. Fructose appeared to stimulate insulin secretion. With i.v. fructose, serum NEFA levels decreased, reaching similar low levels when 500 mg/kg/h was infused, due to a reduction in NEFA Ra and an increase in the NEFA metabolic clearance rate (MCR). Glycerol levels showed little change. As glycerol Ra decreased by less than 20% in both groups, the decrease in serum NEFA was primarily due to enhanced reesterification of fatty acids both within adipose tissue (preventing their release) and in other tissues (enhancing their removal from plasma). Although total fructose utilization was normal in cirrhotics, they oxidized more of the infused fructose; nonoxidative disposal was reduced (first step, 242 +/- 12 v 318 +/- 16 mg/kg in 2 hours, P < .002; second step, 657 +/- 32 v 786 +/- 21 mg/kg in 2 hours, P < .005). Although tissue fructose uptake is insulin-independent, insulin resistance in cirrhosis may influence the intracellular metabolism of fructose.
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PMID:Lipid metabolism and substrate oxidation during intravenous fructose administration in cirrhosis. 808 92


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