Cyclosporine A monitoring--how to account for twice and three times daily dosing

Therapeutic drug monitoring in childhood idiopathic nephrotic syndrome: a state of the art review

Immunosuppressants are commonly used as steroid-sparing agents in childhood idiopathic nephrotic syndrome (NS) to induce and sustain remissions. These drugs have narrow therapeutic indices with high inter- and intra-patient variability. Therapeutic drug monitoring (TDM) would therefore be essential to guide the prescription. Multiple factors in NS contribute to additional variability in drug concentrations, especially during relapses. In this article, we review the currently available evidence of TDM in NS and suggest a practical approach for clinicians' reference.

Renal transplantation in infants

Renal transplantation (RTx) has become an accepted mode of therapy in infants with severe renal failure. The major indications are structural abnormalities of the urinary tract, congenital nephrotic syndrome, polycystic diseases, and neonatal kidney injury. Assessment of these infants needs expertise and time as well as active treatment before RTx to ensure optimal growth and development, and to avoid complications that could lead to permanent neurological defects. RTx can be performed already in infants weighing around 5 kg, but most operations occur in infants with a weight of 10 kg or more. Perioperative management focuses on adequate perfusion of the allograft and avoidance of thrombotic and other surgical complications. Important long-term issues include rejections, infections, graft function, growth, bone health, metabolic problems, neurocognitive development, adherence to medication, pubertal maturation, and quality of life. The overall outcome of infant RTx has dramatically improved, with long-term patient and graft survivals of over 90 and 80 %, respectively.

Pharmacogenetics of cyclosporine in children suggests an age-dependent influence of ABCB1 polymorphisms

OBJECTIVE

To evaluate whether variations in the ABCB1, ABCC2, SLCO1B1, CYP3A4, CYP3A5, or NR1I2 genes are associated with the pharmacokinetics of cyclosporine in pediatric renal transplant candidates, and whether the effects of these variants are related to age.

METHODS

A total of 104 pediatric patients (aged 0.36-16.3 years) were genotyped for 17 putatively functionally significant sequence variations in the ABCB1, SLCO1B1, ABCC2, CYP3A4, CYP3A5, and NR1I2 genes. The patients had undergone a pharmacokinetic study with intravenous and oral ciclosporine (INN, cyclosporin) before renal transplantation.

RESULTS

In the whole population, the mean+/-SD cyclosporine oral bioavailability was 0.38+/-0.09, volume of distribution was 2.3+/-0.54 l/kg, and systemic clearance normalized by allometric body weight was 0.88+/-0.16 l/h/kg3/4. The prehepatic extraction ratio was 0.51+/-0.13, and the hepatic extraction ratio was 0.24+/-0.04, the former explaining 95% of the variability in oral bioavailability (P<0.0001). In children older than 8 years, the pre-hepatic extraction was 0.64+/-0.09 in those with the ABCB1 c.2677GG genotype, 0.52+/-0.11 in those with the c.2677GT genotype, and 0.41+/-0.03 in those with the c.2677TT genotype (P=0.021, r2=0.334), leading to corresponding differences in oral bioavailability (0.28+/-0.07, 0.36+/-0.07, and 0.44+/-0.04, respectively; P=0.012, r2=0.372). Similar associations were observed with the ABCB1 c.1236C>T variant and the related haplotype c.1199G-c.1236C-c.2677G-c.3435C (P<0.05). The estimated oral dose requirement and clearance of cyclosporine remained largely unexplained by the genetic variations.

CONCLUSIONS

Although these data suggest an age-related effect of ABCB1 polymorphism on oral bioavailability, further studies are required on the predictive value of genotyping for individualization of cyclosporine dosing in children.

Developmental pharmacokinetics of ciclosporin--a population pharmacokinetic study in paediatric renal transplant candidates

AIMS

To use population pharmacokinetic modelling to characterize the influence of developmental and demographic factors on the pharmacokinetic variability of ciclosporin.

METHODS

Pharmacokinetic modelling was performed in NONMEM using a dataset comprising 162 pretransplant children, aged 0.36-17.5 years. Ciclosporin was given intravenously (3 mg kg(-1)) and orally (10 mg kg(-1)) on separate occasions followed by blood sampling for 24 h.

RESULTS

A three-compartment model with first-order absorption without lag-time best described the pharmacokinetics of ciclosporin. The most important covariate affecting systemic clearance (CL) and distribution volume (V) was body weight (BW; scaled allometrically), responsible for a fourfold difference in uncorrected ciclosporin CL and a sixfold difference in ciclosporin V. The other significant covariates, haematocrit, plasma cholesterol and creatinine, were estimated to explain 20-30% of interindividual differences in CL and V of ciclosporin. No age-related changes in oral bioavailability or in BW-normalized V were seen. The BW-normalized CL (CL/BW) declined with age and prepubertal children (<8 years) had an approximately 25% higher CL/BW than did older children. Normalization of CL for allometric BW (BW(3/4)) removed its relationship to age.

CONCLUSION

The relationship between CL and allometric BW is consistent with a gradual reduction in relative liver size, until adult values, and a relatively constant CYP3A4 content in the liver from about 6-12 months of age to adulthood. Ciclosporin oral bioavailability, known previously to display large interindividual variability, is not influenced by age. These findings can enable better individualization of ciclosporin dosing in infants, children and adolescents.

Cyclosporin twice or three times daily dosing in pediatric transplant patients - it is not the same!

Not infrequently, physicians elect to divide CyA-ME from b.i.d. to t.i.d. dosing in an effort to minimize toxicity. Equivalent exposure is assumed. Few studies have compared 24-h PK profiles on both dosing regimes in the same patient. We retrospectively studied a heterogeneous population of seven pediatric patients (one heart transplant, five renal transplants and one FSGS patient) on both dosing regimes who had complete 24-h PK profiles on CyA-ME. Four patients were converted from b.i.d. to t.i.d. and three patients from t.i.d. to b.i.d. dosing. There was no difference in the dose/kg (5.66 +/- 2.52 mg/kg on b.i.d. dosing and 5.75 +/- 1.81 mg/kg on t.i.d. dosing, p = 0.8578, two-sided t-test). When comparing the dose-normalized AUCs over 24 h, every single patient demonstrated lower CyA-ME exposure on t.i.d. than on b.i.d. dosing with an average relative bioavailability that was 37.9% lower on t.i.d. than on b.i.d. dosing. The median dose-normalized AUC(0-->24h) dropped from 1620 ng x h x kg/mL x mg (range: 1253-4319) on b.i.d. to 1016 ng x h x kg/mL x mg (range: 712-1485, p = 0.02, Wilcoxon's matched pairs test) on t.i.d. dosing. Our results indicate t.i.d. dosing of CyA-ME results in significantly lower exposure when the same total dose is administered in two divided doses. This reduced exposure may potentially increase the risk for rejection.