Introduction: After kidney transplantation, rejection and drug-related toxicity occur despite tacrolimus whole blood pre-dose concentrations ([Tac](blood)) being within the target range. The... Show moreIntroduction: After kidney transplantation, rejection and drug-related toxicity occur despite tacrolimus whole blood pre-dose concentrations ([Tac](blood)) being within the target range. The tacrolimus concentration within peripheral blood mononuclear cells ([Tac](cells)) might correlate better with clinical outcomes. The aim of this study was to investigate the correlation between [Tac](blood) and [Tac](cells), the evolution of [Tac](cells) and the [Tac](cells)/[Tac](blood) ratio, and to assess the relationship between tacrolimus concentrations and the occurrence of rejection. Methods: In this prospective study, samples for the measurement of [Tac](blood) and [Tac](cells) were collected on days 3 and 10 after kidney transplantation, and on the morning of a for-cause kidney transplant biopsy. Biopsies were reviewed according to the Banff 2019 update. Results: Eighty-three [Tac](cells) samples were measured of 44 kidney transplant recipients. The correlation between [Tac](cells) and [Tac](blood) was poor (Pearson's r = 0.56 (day 3); r = 0.20 (day 10)). Both the dose-corrected [Tac](cells) and the [Tac](cells)/[Tac](blood) ratio were not significantly different between days 3 and 10, and the median inter-occasion variability of the dose-corrected [Tac](cells) and the [Tac](cells)/[Tac](blood) ratio were 19.4% and 23.4%, respectively (n = 24). Neither [Tac](cells), [Tac](blood), nor the [Tac](cells)/[Tac](blood) ratio were significantly different between patients with biopsy-proven acute rejection (n = 4) and patients with acute tubular necrosis (n = 4) or a cancelled biopsy (n = 9; p > 0.05). Conclusion: Tacrolimus exposure and distribution appeared stable in the early phase after transplantation. [Tac](cells) was not significantly associated with the occurrence of rejection. A possible explanation for these results might be related to the low number of patients included in this study and also due to the fact that PBMCs are not a specific enough matrix to monitor tacrolimus concentrations. Show less
Calcineurin inhibitors are crucial in the prevention of acute rejection in the first year after renal transplantation. Unfortunately, these drugs (ciclosporin A, tacrolimus) are characterized by... Show moreCalcineurin inhibitors are crucial in the prevention of acute rejection in the first year after renal transplantation. Unfortunately, these drugs (ciclosporin A, tacrolimus) are characterized by serious clinical toxicity and between patient variability in their effect. Therefore, the dose of these drugs should be individualized in order to reach a balance between rejection and toxicity. This thesis aimed to describe the variability between and within patients using mathematical models and subsequently to explain this variability. Genetic and non-genetic factors were used to explain variability and several factors were identified (polymorphism in metabolism enzyme CYP3A5, body weight, concomitant prednisolone dose). For this purpose drug concentrations in blood are measured as a concentration biomarker. Furthermore, another biomarker the activity ot the target enzyme calcineurin was determined in leukocytes, but was found to be more variable within patients than between patients. This response biomarker was not found to be clinically useful to individualize the drug dosage. Finally, pharmacological determinants for subclinical acute rejection at 6 months were determined in patients treated with ciclosporin. Although ciclosporin exposure and several genetic variants were not found to relate, a previous acute rejection period and a kidney from a deceased donor increased the risk of rejection 5-fold. Show less