Primary human hepatocytes were used to study bile salt hepatotoxicity and the hepatoprotective potential of ursodeoxycholate in vitro. Hepatocytes were obtained by collagenase perfusion of healthy human liver tissue and were treated with glycochenodeoxycholate for 24 hr 1 day after plating. Clear signs of cytotoxicity were observed at concentrations of about 100 mumol/L glycochenodeoxycholate. Toxicity was determined by release of alkaline phosphatase, gamma-glutamyl transferase, AST, ALT or lactate dehydrogenase into the culture medium, by measuring DNA synthesis of the cultured liver cells and by testing the viability of the hepatocytes using trypan-blue dye exclusion. Addition of ursodeoxycholate, which by itself proved to be of little toxicity, significantly reduced the hepatotoxic effects of glycochenodeoxycholate: 72% +/- 6% of the cells survived treatment with 500 mumol/L glycochenodeoxycholate alone, but addition of 100 mumol/L ursodeoxycholate increased the survival rate to 87% +/- 4% (p less than 0.05). Moreover, all enzymes tested were secreted at a significantly lower level when ursodeoxycholate was present. Similarly, the cellular DNA synthesis was maintained at significantly higher levels as a result of ursodeoxycholate treatment. We conclude that (a) primary human hepatocytes are a suitable model for studying hepatotoxicity of bile salts in vitro, (b) ursodeoxycholate reduces hepatotoxicity of other bile salts and (c) ursodeoxycholate can act hepatoprotectively by itself (i.e., alteration of the metabolism of other bile salts is not necessarily required).
Ursodeoxycholic acid treatment of patients with primary biliary cirrhosis may lead to relief of pruritus and improvement of biochemical liver tests. The changes in serum and urinary bile acids induced by ursodeoxycholic acid treatment were studied. After 29 patients with primary biliary cirrhosis were treated with ursodeoxycholic acid (750 to 1,000 mg/day) for 6 to 12 mo because of an increase in ursodeoxycholic acid, total plasma bile acids increased from 30.5 +/- 6 mumol/L (mean +/- S.E.M.) to 52.7 +/- 11.7 mumol/L (p less than 0.01). The increase in total plasma bile acids correlated significantly with concentrations of plasma bile acid before treatment (p less than 0.01). The concentrations of endogenous bile acids decreased, mainly because of a decrease of cholic acid. During treatment, glycine conjugation increased and taurine conjugation decreased, whereas sulfation and glucuronidation of bile acids were unchanged. In 10 patients with primary biliary cirrhosis in stages III and IV, urinary excretion of bile acids was also studied. After treatment, ursodeoxycholic acid and its 3-beta isomer and C-1-hydroxylated and C-6-hydroxylated derivatives were also excreted. During treatment, urinary excretion of endogenous bile acids decreased. The increase of ursodeoxycholic acid and the decrease of endogenous bile acids may both be related to the improvement of biochemical liver tests in precirrhotic stages of the disease. In cirrhosis, endogenous bile acids in plasma remained high and changes in liver tests were small.
In patients with hepatobiliary diseases, considerable amounts of sulfated and glucuronidated bile acids are excreted in urine. Information on the biliary excretion of these compounds is lacking. We used an intestinal perfusion method to determine the biliary excretion of sulfated and glucuronidated bile acids in eight patients with alcoholic cirrhosis and moderately severe cholestasis and compared results with urinary excretion rates. In bile, the patients excreted 508.7 mumoles per hr (mean) nonsulfated, nonglucuronidated bile acids, 8.1 mumoles per hr sulfated bile acids and 4.0 mumoles per hr glucuronidated bile acids. In urine, these patients excreted 0.27 mumoles per hr nonsulfated, nonglucuronidated bile acids, 0.88 mumoles per hr sulfated bile acids and 0.02 mumoles per hr glucuronidated bile acids. Sulfates and glucuronides of mono-, di- and trihydroxy bile acids were detected in urine and bile. In urine, tetrahydroxy bile acids were only excreted as nonsulfated and nonglucuronidated forms. The bile:urine excretion ratio of sulfated bile acids was 9:1 and of glucuronidated bile acids was 226:1. In alcoholic cirrhosis with cholestasis, biliary excretion is an important excretory route of sulfated and glucuronidated bile acids.
The effect of terlipressin (N-alpha-triglycyl-8-lysine-vasopressin) in bleeding esophageal varices was evaluated in a prospective placebo-controlled study. Fifty bleeding episodes from esophageal varices in 34 patients were randomized. Standard therapy with transfusions, fluid and electrolyte correction, and lactulose was performed in both groups. Balloon tamponade was used in 20 bleeding episodes in the terlipressin group and in 19 bleeding episodes in the control group. In the terlipressin group, hemorrhage was controlled in all bleeding episodes (25/25) whereas in the placebo group, only 20 of 25 bleeding episodes could be stopped within 36 hr (p less than 0.05). Sclerotherapy was performed in five bleeding episodes in the terlipressin group and in seven bleeding episodes in the placebo group. Treatment failures, including patients who required sclerotherapy, occurred in five bleedings in the terlipressin group and in 12 in the control group (p less than 0.05). The hospital mortality rate was 12% (3/25) in the terlipressin group and 32% (8/25) in the control group. Patients in the terlipressin group required fewer transfusions, the balloon needed to be inflated for a shorter time and the duration of bleeding was shorter than in the control group. However, these differences were not significant. These data do not allow conclusions concerning monotherapy with terlipressin, but they indicate that the addition of terlipressin to standard therapy may increase the control rate in acute variceal hemorrhage.
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