Gary L.C. Chan scite author profile

Despite extensive clinical experience with azathioprine (AZA), the disposition of various AZA metabolites remains obscure. We therefore evaluated the pharmacokinetics of three AZA metabolites: 6-mercaptopurine (6-MP), the immediate metabolite; 6-thiouric acid (6-TU), the final end product; and 6-thioguanine nucleotides (TGN), the active moiety; in eight renal transplant patients after oral administration of AZA. The low peak plasma 6-MP level of 73.7 +/- 23.7 ng/mL (mean +/- SD) and the short half-life (t1/2) of 1.9 +/- 0.6 hours suggest rapid conversion of 6-MP to other metabolites. A peak plasma 6-TU concentration of 1210 +/- 785 ng/mL was observed at 3.5 +/- 0.6 hours after the AZA dose. The strong correlation between 6-TU t1/2 and serum creatinine (r = 0.98, P = .0008) supported our previous work showing that 6-TU is primarily excreted by the kidneys. The total TGN levels in red blood cells (RBCs) in each patient remained largely unchanged over 24 hours with the intraindividual coefficient of variation ranging from 4.4% to 29.8%. In comparison, the mean TGN level varied considerably between patients, and ranged from undetectable to 413 pmol per 8 X 10(8) RBCs. However, there was no apparent correlation between white cell counts on day 0 (P greater than .5), day 7 (P greater than .5), or day 14 (P greater than .5) and RBC TGN level. The persistence of TGN in body tissues thus provides a pharmacokinetic rationale for the conventional once or twice daily AZA regimen.(ABSTRACT TRUNCATED AT 250 WORDS)

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The Therapeutic Use of Azathioprine in Renal Transplantation

Chan

Canafax

Johnson

1987

Pharmacotherapy

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This review discusses the pharmacokinetics, mechanism of action, clinical use, toxicities, drug interactions, and possible approaches for therapeutic monitoring of azathioprine (AZA). The drug has been used extensively in posttransplant immunosuppressive protocols. Its therapeutic use is hampered by the development of toxicities, however, especially leukopenia, which is a common criterion for dosage adjustment. Azathioprine is rapidly converted in the liver and erythrocytes to 6-mercaptopurine (6MP), which is eventually metabolized to inactive 6-thiouric acid (6TU). The terminal half-lives of AZA and 6MP are 50 and 74 minutes, respectively. While renal dysfunction does not alter the disposition of AZA, hepatic insufficiency attenuates the pharmacologic activity. Immunosuppression depends on the formation of active intracellular thiopurine ribonucleotides, although AZA itself may block antigen recognition. Individualization of AZA regimens by determining tissue concentrations of thioguanine nucleotides, and plasma concentrations of AZA, 6MP, or 6TU may improve the risk:benefit ratio.

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Effects of Renal Insufficiency on the Pharmacokinetics and Pharmacodynamics of Opioid Analgesics

Chan

Matzke

1987

Drug Intelligence & Clinical Pharmacy

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The disposition and pharmacologic activities of morphine, meperidine, methadone, propoxyphene, dihydrocodeine, and codeine are reviewed. Dose-related toxicities of these opioid analgesics include mental obtundation, respiratory depression, and hypotension. Furthermore, convulsions have been associated with normeperidine and cardiac toxicities with norpropoxyphene. Hepatic metabolism is the primary route of elimination, except for methadone, for which there is also significant renal excretion. Although the pharmacokinetics of morphine are unchanged in renal insufficiency, accumulation of active metabolites may lead to narcosis. Similar accumulation of normeperidine and norpropoxyphene, metabolites of meperidine and propoxyphene, respectively, as well as propoxyphene itself, and dihydrocodeine and codeine may explain reports of adverse reactions in patients with impaired renal function. A high index of suspicion of opioid-induced toxicities should be maintained in patients who have renal dysfunction and receive opioids.

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Alternative Dosing Strategy for Aminoglycosides: Impact on Efficacy, Nephrotoxicity, and Ototoxicity

Chan¹

1989

DICP

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Accumulating evidence suggests that the therapeutic margin of aminoglycoside therapy may be improved by manipulation of dosing strategy. Recent understanding of concentration-dependent bactericidal activity and postantibiotic effect argues that the aminoglycosides may be administered in larger doses and at longer dosing intervals than currently recommended without compromising efficacy. Preliminary clinical experience suggests that once-daily regimens are as efficacious as conventional intermittent injections in the treatment of gram-negative infections including urinary tract infections, cystic fibrosis, and bacteremia in nonneutropenic patients. The transient, high peak serum concentrations achieved in once-daily dosing have not been associated with excessive nephrotoxicity or ototoxicity thus far. Decreased accumulation in renal cortex as a result of saturable renal uptake after the single daily dose may even reduce the incidence or severity of renal damage. Further studies on more patients are required to substantiate these preliminary findings.

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Relative Performance of Specific and Nonspecific Fluorescence Polarization Immunoassay for Cyclosporine in Transplant Patients

Chan¹,

Weinstein²,

LeFor³

et al. 1992

Therapeutic Drug Monitoring

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Gary L.C. Chan

Azathioprine Metabolism: Pharmacokinetics of 6‐Mercaptopurine, 6‐Thiouric Acid and 6‐Thioguanine Nucleotides in Renal Transplant Patients

The Therapeutic Use of Azathioprine in Renal Transplantation

Effects of Renal Insufficiency on the Pharmacokinetics and Pharmacodynamics of Opioid Analgesics

Alternative Dosing Strategy for Aminoglycosides: Impact on Efficacy, Nephrotoxicity, and Ototoxicity

Relative Performance of Specific and Nonspecific Fluorescence Polarization Immunoassay for Cyclosporine in Transplant Patients

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