Relationship between the metabolism of antipyrine, hexobarbital and theophylline in patients with liver disease as assessed by a ‘cocktail’ approach

Schellens, J.H.M.; Janssens, A. R.; Wart, J. H. F. Van Der; Velde, E. A. van der; Breimer, D. D.

doi:10.1111/j.1365-2362.1989.tb00262.x

Cited by 17 publications

(24 citation statements)

References 25 publications

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“…Indocyanine green (ICG) and bromsulphthalein (BSP) both have high hepatic extraction ratios in subjects with normal liver function, and their clearance rates have been used as surrogate measures of liver blood flow [1][2][3][4]. Intrinsic clearance associated with the activity of the cytochrome P-450 enzyme system has been assessed from antipyrine clearance [22][23][24] and, more recently, from the formation clearances to antipyrine metabolites [9][10][11][12].…”

Section: Discussionmentioning

confidence: 99%

“…Orthogonal regression was chosen because both x and y values are subject to measurement error [12]. Logarithmic transformations of metabolite formation clearances and liver blood flows were used in the orthogonal regressions because the metabolite formation clearances and liver blood flows had different variances [12]. Pearson correlation coefficients were also computed.…”

Section: Methodsmentioning

confidence: 99%

“…Orthogonal regression was used to determine relationships between metabolite formation clearances and also betwen metabolite formation clearances and liver blood flows. Orthogonal regression was chosen because both x and y values are subject to measurement error [12]. Logarithmic transformations of metabolite formation clearances and liver blood flows were used in the orthogonal regressions because the metabolite formation clearances and liver blood flows had different variances [12].…”

Section: Methodsmentioning

confidence: 99%

“…[17,18]. The formation clearance to each antipyrine metabolite was computed from the product of the fraction of the antipyrine dose eliminated as metabolite in the urine and antipyrine clearance [11,12]. Body surface area was calculated using the method of DuBois & DuBois [19].…”

Section: Methodsmentioning

confidence: 99%

“…Duplex scanning is a relatively new noninvasive technique that can be used to measure liver blood flow through the hepatic artery and branches of the portal and hepatic veins [5][6][7][8]. Antipyrine clearance and the formation clearances to its metabolites have been used to measure P-450 hepatic drug metabolism capacity [9][10][11][12]. The purpose of this study was to measure liver blood flow in cirrhotic and hepatitis patients using a noninvasive, direct measurement technique and to determine if cirrhosis and hepatitis affect liver blood flow, antipyrine pharmacokinetics, and the formation clearances of antipyrine to its metabolites in man.…”

Section: Introductionmentioning

confidence: 99%

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Liver blood flow, antipyrine clearance, and antipyrine metabolite formation clearance in patients with chronic active hepatitis and alcoholic cirrhosis.

Bauer

O’Sullivan

Reiss

et al. 1994

Brit J Clinical Pharma

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1 Duplex scanning was used to measure liver blood flow (hepatic artery and main branches of the portal and hepatic veins) in six healthy subjects, five cirrhotic patients, and six hepatitis patients. Antipyrine clearance and formation clearances to its metabolites were also measured. 2 Compared with healthy control subjects, cirrhotic patients had a lower hepatic vein blood flow (-76%, P < 0.05). This was due primarily to a lower portal vein blood flow (-36%, NS). A statistically significant difference in liver blood flow between patients with hepatitis and normal subjects was not detected. 3 Antipyrine half-life, clearance, and the area under the serum drug concentration vs time curve were significantly different in cirrhotic patients compared with the healthy subjects (mean ± s.d.-healthy controls: t, 2 = 13.7 ± 3.0 h, CL = 30.0 ± 8.6ml h-' kg-', AUC = 549 ± 139 mg 1-1 h; cirrhotic patients: ti,2 = 32.4 ± 1.7 h, CL = 12.3 ± 2.1 ml h-1 kg-', AUC = 1061 ± 218 mg 1-1 h; P < 0.008). Antipyrine halflife, clearance, and the area under the serum drug concentration vs time curve were not significantly different in hepatitis patients compared with the healthy subjects (hepatitis patients: tb = 14.3 ± 3.7 h, CL = 29.3 ± 8.5 ml h-1 kg-I, AUC = 498 ± 142 mg I1-h). The volume of distribution of antipyrine was similar in all three groups of subjects. 4 Formation clearances to 3-OH-methylantipyrine, 4-OH-antipyrine, and norantipyrine were all lower (P < 0.009) in cirrhotic patients compared with normal subjects and hepatitis patients. However, only the formation clearance to norantipyrine was lower (P < 0.002) in hepatitis patients when compared with normals. 5 There were strong correlations between the logarithmic transformations of the formation clearances for all antipyrine metabolites (r = 0.88-0.93, P < 0.0001). However, the only orthogonal regression line with a slope not significantly different from one was that for norantipyrine and 3-OH-methylantipyrine indicating that these two metabolites may be metabolized by a common enzyme(s). 6 Weak correlations were found between the logarithmic transformations of hepatic vein blood flow and antipyrine clearance and the logarithmic transformations of hepatic vein blood flow and formation clearances to antipyrine metabolites (r= 0.54-0.62, P < 0.05). 7 Cirrhotic patients may have difficulty metabolizing drugs with high hepatic extraction ratios or drugs that are eliminated by the same liver enzyme systems which produce the three major metabolites of antipyrine. Hepatitis patients may have difficulty metabolizing drugs that share the same hepatic enzyme system responsible for the formation of norantipyine from antipyrine.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Liver blood flow, antipyrine clearance, and antipyrine metabolite formation clearance in patients with chronic active hepatitis and alcoholic cirrhosis.

Bauer

O’Sullivan

Reiss

et al. 1994

Brit J Clinical Pharma

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Solid phase extraction and simultaneous high performance liquid chromatographic determination of antipyrine and its major metabolites in urine

Ma¹,

March²,

Ht³

1992

Biomedical Chromatography

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A reversed phase gradient high performance liquid chromatographic method utilizing solid phase extraction has been described for the simultaneous determination of antipyrine (AP), 4-hydroxyantipyrine (COHAP), norantipyrine (NorAP) and 3-hydroxymethylantipyrine (3-OHMAP) in human urine after hydrolysis with pglucuronidase. The C-18 sorbent cartridges were conditioned and urine samples were applied, washed with 1 X 4 mL of phosphate buffer and eluted with 3 X 100 pL of 20% v/v of acetonitrile in methylene chloride. The eluent was evaporated to dryness, reconstituted in 100 pL phosphate buffer and injected. The calibration ranges were 2.0-250 pg/mL (AP), 2.5-250 pg/mL (NorAP), 2.0-250 pg/mL (3-OHMAP) and 5.0-500 pg/mL (4-OHAP) with regression coefficients of 0.998 or greater. Specificity was indicated by the absence of interferences in chromatogram of blank urine from normal as well as cirrhotic patients. The average recovery was 86.7% for AP, 90.5% for NorAP, 85.2% for 4-OHAP and 74.2% for 3-OHMAP. The within-assay precision as indicated by the reproducibility of the assayed spiked urine was less than 9% in all cases and the between-assay precision was less than 12%. The method was applied to studies on antipyrine metabolism in stable cirrhotic patients. Following administration of a single oral dose of about 1000 mg to nine stable cirrhotic patients and eight age-matched healthy volunteers, the cumulative account excreted in the urine up to 48 h for AP and the three metabolites was comparable to other literature reports.

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Disposition of antipyrine in patients with extensive metastatic liver disease

Robertz-Vaupel

Lindecken²,

Edeki

et al. 1992

Eur J Clin Pharmacol

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In the present study the effect of metastatic liver disease on hepatic drug metabolism has been examined by studying the pharmacokinetics of antipyrine and the urinary excretion of antipyrine and its three major metabolites (4-hydroxyantipyrine, norantipyrine, and 3-hydroxymethylantipyrine) in 12 patients with extensive metastatic liver disease, and in 12 matched healthy controls. In the patients total liver volume, the volume of the liver parenchyma, and the volume of the liver metastases were determined by computed tomography. The volume of liver metastases always exceeded 35% of the total liver volume. There were no significant differences between the patients and controls in plasma half-life, plasma clearance, or apparent volume of distribution of antipyrine. The cumulative urinary excretion of antipyrine and its three major metabolites was significantly lower in patients [44 (18) %] than in controls [71 (8) %]. The excretion of antipyrine itself was unchanged and the decrease in cumulative excretion was due to reduced excretion of the three metabolites. The results show that the activity of the hepatic mixed function oxidases was not impaired even in patients with extensive metastatic liver disease. This may be because liver metastases do not cause a corresponding reduction in the volume of normal hepatic parenchyma. The decreased urinary excretion of the three major metabolites of antipyrine, which are mainly glucuronidated, may have been due to an alteration in the process of conjugation.

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Relationship between the metabolism of antipyrine, hexobarbital and theophylline in patients with liver disease as assessed by a ‘cocktail’ approach

Cited by 17 publications

References 25 publications

Liver blood flow, antipyrine clearance, and antipyrine metabolite formation clearance in patients with chronic active hepatitis and alcoholic cirrhosis.

Liver blood flow, antipyrine clearance, and antipyrine metabolite formation clearance in patients with chronic active hepatitis and alcoholic cirrhosis.

Solid phase extraction and simultaneous high performance liquid chromatographic determination of antipyrine and its major metabolites in urine

Disposition of antipyrine in patients with extensive metastatic liver disease

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