B. Isla Tejera , M.D. Aumente Rubio , J. Martínez-Moreno , M. Reyes Malia , J.M. Arizón , A. Suárez García
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引用次数: 4
Abstract
Objective
To determine how single nucleotide polymorphisms located on genes MDR1, CYP3A4, and CYP3A5 affect the absorption kinetics of cyclosporine in cardiac transplant patients.
Method
We selected a sample of 30 adult patients having previously undergone a primary cardiac transplant and who had received cyclosporine as an immunosuppressant. During the first month after the transplant, we performed a pharmacokinetic study of each patient to determine values in the cyclosporine concentration area under the 12-hour curve, steady-state cyclosporine concentration, maximum cyclosporine concentration, and time to reach that concentration. Single nucleotide polymorphisms were genotyped in all patients MDR1 3435C > T, CYP3A4-390A > G, and CYP3A5 6986A > G.
Results
Being a carrier of the T-allele for polymorphism MDR1 3435C > T is associated with higher values in the cyclosporine concentration area under the 12-hour curve (P=.01) and in steady-state cyclosporine concentration (P=.05), compared with those from patients who do not carry that allele.
Discussion
Our results show that genotype differences in MDR1 3435C > T can explain part of the variability in cyclosporine absorption among individuals in the population of Spanish cardiac transplant recipients.
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