OBJECTIVES: We investigated the pharmacokinetic and pharmacogenetic implications of conversion from a twice-daily (P-Tac) to a once-daily (A-Tac) tacrolimus (Tac) formulation. METHODS: We analyzed Tac levels in a cohort of 41 renal transplant patients with a stable graft function over a period of 1 year before and after conversion. RESULTS: After conversion, the patients had, on average, significantly lower Tac trough and dose-normalized trough levels (14%, P=0.0004 and 23%, P=0.001, respectively) despite similar doses. CYP3A5*3/*3 patients (n=27) required significantly lower Tac doses with both the formulations to reach Tac target levels (P-Tac 39%, P=0.011; A-Tac 36%, P=0.003) compared with *1/*3 patients (n=13). Interestingly, after the conversion, mean Tac trough levels and dose-normalized trough level remained almost constant in *1/*3 patients, but decreased significantly in *3/*3 patients (16%, P=0.001 and 25%, P=0.006). CONCLUSION: This study provides further evidence that the CYP3A5*1/*3 polymorphism significantly impacts Tac pharmacokinetics. Moreover, we show for the first time a pharmacogenetic effect on two different Tac formulations, as Tac trough levels of *3/*3 patients declined significantly after conversion to identical A-Tac doses.
OBJECTIVES: We investigated the pharmacokinetic and pharmacogenetic implications of conversion from a twice-daily (P-Tac) to a once-daily (A-Tac) tacrolimus (Tac) formulation. METHODS: We analyzed Tac levels in a cohort of 41 renal transplant patients with a stable graft function over a period of 1 year before and after conversion. RESULTS: After conversion, the patients had, on average, significantly lower Tac trough and dose-normalized trough levels (14%, P=0.0004 and 23%, P=0.001, respectively) despite similar doses. CYP3A5*3/*3 patients (n=27) required significantly lower Tac doses with both the formulations to reach Tac target levels (P-Tac 39%, P=0.011; A-Tac 36%, P=0.003) compared with *1/*3 patients (n=13). Interestingly, after the conversion, mean Tac trough levels and dose-normalized trough level remained almost constant in *1/*3 patients, but decreased significantly in *3/*3 patients (16%, P=0.001 and 25%, P=0.006). CONCLUSION: This study provides further evidence that the CYP3A5*1/*3 polymorphism significantly impacts Tac pharmacokinetics. Moreover, we show for the first time a pharmacogenetic effect on two different Tac formulations, as Tac trough levels of *3/*3 patients declined significantly after conversion to identical A-Tac doses.
Authors: Katherine A Barraclough; Nicole M Isbel; David W Johnson; Scott B Campbell; Christine E Staatz Journal: Drugs Date: 2011-08-20 Impact factor: 9.546
Authors: Dennis A Hesselink; Rachida Bouamar; Laure Elens; Ron H N van Schaik; Teun van Gelder Journal: Clin Pharmacokinet Date: 2014-02 Impact factor: 6.447
Authors: Eliecer Coto; Beatriz Tavira; Beatriz Suárez-Álvarez; Carlos López-Larrea; Carmen Díaz-Corte; Francisco Ortega; Victoria Alvarez Journal: Kidney Int Suppl (2011) Date: 2011-08