Annika Schäfer scite author profile

The pharmacokinetics of intravenous and oral tacrolimus was assessed in paediatric liver transplant patients at two centers in Europe. Sixteen patients, age 0.7 to 13 years, participated in the study; 12 patients were evaluable for intravenous pharmacokinetics, and 16 for oral. Intravenous tacrolimus was given as a continuous 24 h infusion (mean 0.037+/-0.013 mg/kg/day), and oral tacrolimus was given in 2 doses per day (mean 0.152+/-0.015 mg/kg). Whole blood samples for the intravenous pharmacokinetic profile were taken before initiation of the first infusion, 4, 8, 12 and 24 h post-infusion, and every 24 h thereafter until intravenous administration was discontinued. During the 12 h wash-out period between intravenous and oral administration, samples were taken every 3 h. Samples for the oral pharmacokinetic profile were taken immediately before the first oral dose and 0.5, 0.75, 1, 2, 2.5, 3, 4, 6, 8, 10 and 12 h post-administration. Non-compartmental procedures were used to characterise the pharmacokinetic parameters. Mean estimates for clearance and terminal half-life were 2.3+/-1.2 ml/min/kg and 11.5+/-3.8 h, respectively, following intravenous tacrolimus. The mean bioavailability of oral tacrolimus was 25+/-20%. A strong correlation was observed between AUC and trough whole blood levels of tacrolimus (r=0.90). The clearance was approximately 2-fold higher than that previously observed in adults; this could explain the higher dosage requirements in children.

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Skin cancer in organ transplant recipients: effects of immunosuppressive medications on DNA repair

Kuschal

Thoms

Schubert

et al. 2011

Experimental Dermatology

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UV-induced skin cancers comprise a major problem in organ transplant recipients (OTRs). Cyclosporin A, a calcineurin inhibitor, is used as a standard immunosuppressant and clearly increases the skin cancer risk. Azathioprine does not appear to result in such an increase in skin cancer risk, and mTOR inhibitors are associated with an even lesser skin cancer risk. The underlying molecular mechanisms of these clinically important differences among immunosuppressants are still unclear and may relate to other than immunological effects. Insights may be gained by the multistep skin cancer theory and xeroderma pigmentosum, where defective nucleotide excision repair (NER) results in a cellular mutator phenotype and cutaneous carcinogenesis. This viewpoint assay summarizes current knowledge about the influence of the most commonly used immunosuppressive drugs in OTRs on DNA repair. Calcineurin inhibition results in a 200-fold increased skin cancer risk compared with the normal population and inhibits NER. The skin cancer risk under azathioprine is threefold less compared with calcineurin inhibitors, which may relate to inhibition of only the last step of NER, i.e. gap filling. mTOR inhibitors do not reduce NER in the global genome and can inhibit the growth of already initiated tumors, which may account for the markedly reduced skin cancer risk compared with calcineurin inhibitors. We conclude that OTRs may benefit from treatment regimens other than calcineurin inhibitors and speculate that a targeted modulation of calcineurindependent signalling may prevent UV-induced tumor formation by enhancing NER not only in OTRs but also in the general population, at least in part.

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Pharmacokinetics of tacrolimus: clinically relevant aspects

Undre

Stevenson

Schäfer

1999

Transplantation Proceedings

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Annika Schäfer

Low systemic exposure to tacrolimus correlates with acute rejection

Factors Affecting the Pharmacokinetics of Tacrolimus in the First Year After Renal Transplantation

Pharmacokinetics of tacrolimus (FK506) in paediatric liver transplant recipients

Skin cancer in organ transplant recipients: effects of immunosuppressive medications on DNA repair

Pharmacokinetics of tacrolimus: clinically relevant aspects

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