The Aminopyrine Breath Test and Serum Bile Acids Reflect Histologic Severity in Chronic Hepatitis
Paul S. Monroe
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorCorresponding Author
Alfred L. Baker
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Alfred L. Baker, M.D., Box 400, 950 East 59th Street, Chicago, Illinois 60637.===Search for more papers by this authorJohn F. Schneider
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorPatricia S. Krager
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorPeter D. Klein
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorDale Schoeller
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorPaul S. Monroe
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorCorresponding Author
Alfred L. Baker
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Alfred L. Baker, M.D., Box 400, 950 East 59th Street, Chicago, Illinois 60637.===Search for more papers by this authorJohn F. Schneider
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorPatricia S. Krager
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorPeter D. Klein
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorDale Schoeller
Liver Study Unit of the Department of Medicine, University of Chicago, Chicago, Illinois 60637
Search for more papers by this authorAbstract
To determine whether the aminopyrine breath test (ABT) and serum bile acid concentrations reflect histologic severity of chronic hepatitis, 56 patients were prospectively evaluated with liver biopsies and ABTs, and the results were compared to results of standard liver chemistry tests; 44 of these patients also had fasting and 2-hr postprandial serum bile acid measurements. Mean values for the ABT were significantly lower, and serum bile acids were significantly higher in patients with chronic active hepatitis with bridging or cirrhosis than in patients with mild chronic active hepatitis or chronic persistent hepatitis. Thirty of 35 patients with bridging or cirrhosis had ABTs <5.7% (mean of controls –2 S.D.) and 21 of 25 with mild chronic active hepatitis or chronic persistent hepatitis had values >5.7% (sensitivity 0.86, specificity 0.84). Fasting and 2–hr postprandial bile acids were also more sensitive than standard chemistries in identifying patients with bridging or cirrhosis. Thus, the ABT and serum bile acids reflect histologic severity in chronic hepatitis patients and may be helpful in selecting patients for liver biopsy.
References
- 1 Baggenstoss AH, Soloway RD, Summerskill WHJ, et al. Chronic active liver disease. The range of histologic lesions, their response to treatment, and evolution. Human Pathol 1972; 3: 183–198.
- 2 Schalm SW, Korman MG, Summerskill WHJ, et al. Severe chronic active liver disease: prognostic significance of initial morphologic patterns. Am J Dig Dis 1977; 22: 973–980.
- 3 Boyer JL. Chronic hepatitis–A perspective on classification and determinants of prognosis. Gastroenterology 1976; 70: 1161–1171.
- 4 Hepner GW, Vesell ES. Assessment of aminopyrine metabolism in man after oral administration of 14C-aminopyrine. Effects of phenobarbital, disulfiram, and portal cirrhosis. N Engl J Med 1974; 291: 1384–1388.
- 5 Bircher J, Kupfer A, Gikalov I, et al. Aminopyrine demethylation measured by breath analysis in cirrhosis. Clin Pharmacol Ther 1976; 20: 484–492.
- 6 Galizzi J, Long RG, Billing BM, et al. Assessment of the [l4C] aminopyrine breath test in liver disease. Gut 1978; 19: 40–45.
- 7 Saunders JB, Wright N, Lewis KO. Predicting outcome of paracetamol poisoning by using 14C-aminopyrine breath test. Br Med J 1980; 1: 279–280.
- 8 Schneider JF, Baker AL, Haines NW, et al. Aminopyrine N-demethylation: a prognostic test of liver function in patients with alcoholic liver disease. Gastroenterology 1980; 79: 1145–1150.
- 9 Pennington CR, Ross PE, Bouchier IAD. Serum bile acids in the diagnosis of hepatobiliary disease. Gut 1977; 18: 903–908.
- 10 Kaplowitz N, Kok E, Javitt NB. Postprandial serum bile acid for the detection of hepatobiliary disease. JAMA 1973; 225: 292–293.
- 11 Fausa O, Gjone E. Serum bile acid concentrations in patients with liver disease. Scand J Gastroenterol 1976; 11: 537–543.
- 12 Korman MG, Hofmann AF, Summerskill WHJ. Assessment of activity in chronic active liver disease: serum bile acids compared with conventional tests and histology. N Engl J Med 1974; 290: 1399–1402.
- 13 Jones M, Weinstock S, Koretz R, et al. Clinical application of serum bile acid levels in chronic hepatitis. Gastroenterology 1980; 78: 1189.
- 14 Soloway RD, Baggenstoss AH, Schoenfield LH, et al. Observer error and sampling variability tested in evaluation of hepatitis and cirrhosis by liver biopsy. Am J Dig Dis 1971; 16: 1082–1086.
- 15 Schneider JF, Schoeller DA, Nemchausky B, et al. Validation of 13CO2 breath analysis as a measurement of demethylation of stable isotope labeled aminopyrine in man. Clin Chem Acta 1978; 84: 153–162.
- 16 Schoeller DA, Klein PD. A simplified technique for collecting breath CO2 for isotope ratio mass spectrometry. Biomed Mass Spectrum 1978; 5: 29–31.
- 17 Schoeller DA, Klein PD. A microprocessor controlled mass spectrometer for fully automated purification and isotopic analysis of breath CO2. Biomed Mass Spectrum 1979; 6: 350–355.
- 18 Miller RG. Simultaneous statistical inference. New York: McGraw-Hill Book Co., 1966: 67–70.
- 19 Gorman JW, Toman RJ. Selection of variables for fitting equations to data. Technometrics 1966; 8: 27–51.
- 20 Snedecor GW, Cochran WG. Statistical methods. Ames, Iowa: Iowa State University Press, 1969: 14.
- 21 Hepner GW, Vesell ES. Quantitative assessment of hepatic function by breath analysis after oral administration of [14C]aminopyrine. Ann Intern Med 1975; 83: 632–638.
- 22 Carlisle R, Galambos JT, Warren WD. The relationship between conventional liver tests, quantitative function tests, and histopa-thology in cirrhosis. Dig Dis Sci 1979; 24: 358–362.
- 23 Caspary WF, Schaffer J. 14C-D-galactose breath test for evaluation of liver function in patients with chronic liver disease. Digestion 1978; 17: 410–418.
- 24 Hepner GW, Uhlin SR, Harvey HA, et al. Abnormal aminopyrine metabolism in patients with hepatic neoplasm: detection by breath test. JAMA 1976; 236: 1587–1590.
- 25 Noordhoek J, Dees J, Savenije-Chapel, et al. Output of 14CO2 in breath after oral administration of (14C-methyl) aminopyrine in hepatitis, cirrhosis, and hepatic bilharziasis: its relationship to aminopyrine pharmacokinetics. Eur J Clin Pharmacol 1978; 13: 233–229.
- 26 Piken E, Hepner GW. Decreased hepatic microsomal reserve in patients with cirrhosis: studies using aminopyrine as model drug. J Lab Clin Med 1979; 94: 947–954.
- 27 Lauterburg BH, Bircher J. Expiratory measurement of maximal aminopyrine demetbylation in vivo: effect of phenobarbital, partial hepatectomy, portacaval shunt, and bile duct ligation in the rat. J Pharmacol Exp Ther 1976; 196: 501–509.
- 28 Farrell GC, Cooksley WGE, Powell LW. Drug metabolism in liver disease: activity of hepatic microsomal metabolizing enzymes. Clin Pharmacol Ther 1979; 26: 483–492.
- 29 Gilmore IT, Thompson RP. Direct measurement of hepatic extraction of bile acids in subjects with and without liver disease. Clin Sci 1981; 60: 65–72.
- 30 Paré P, Hoefs JC, Aschcavai M. Determinants of serum bile acids in chronic liver disease. Gastroenterology 1981; 81: 959–964.
- 31 LaRusso NF, Hoffman NE, Korman MG, et al. Determinants of fasting and postprandial serum bile acid levels in healthy man. Am J Dig Dis 1978; 23: 385–391.
