Population pharmacokinetics of darbepoetin alfa in healthy subjects

Agoram, Balaji; Sutjandra, Liviawati; Sullivan, John T.

doi:10.1111/j.1365-2125.2006.02752.x

Cited by 28 publications

(27 citation statements)

References 29 publications

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“…We explain our contradictory results by: first the difference in the age of the animals in (A) and (B), and second, the interanimal and/or occasion variabilities. Because the body weight is accounted for in our PK parameters, the correlation between body weight and EPO clearance that was previously established [25,26] may not be considered as an influence factor to explain our observed differences.…”

Section: Pharmacokineticscontrasting

confidence: 46%

Time‐dependent clearance and hematological pharmacodynamics upon erythropoietin multiple dosing in rats

Ait‐Oudhia

Scherrmann

Krzyzanski

2010

Biopharm & Drug Disp

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The pharmacokinetics (PK) and pharmacodynamics (PD) of recombinant human erythropoietin (rHuEPO) upon its repeated administrations were investigated. Two groups (A and B) of normal Wistar rats received rHuEPO intravenously at 450 or 1350 IU/kg thrice weekly for 2 and 6 weeks. PK studies were conducted following days 0 and 4 for group (A) and days 0, 17 and 28 for group (B), then, washout PK were assessed on days 11 and 36 for both groups. Reticulocytes (RET), red blood cells (RBC) and hemoglobin (Hb) were evaluated daily until day 14, then every 2 days until day 30 for group (A) and 59 for group (B). The total clearance CL(Total) increased with the dose but decreased over time. Its decay reached 20% and 55% between the first and last full PK in both treatment arms. RET peaked on day 5 and were 77.6% and 87.3% higher than baselines for the two dosing regimen. Their nadirs occurred on days 22 and 55 and were 37.9% and 47.3% below normal values. Hb peaked on days 10 and 34 and was 28.9% and 38.6% above the baseline level, its nadirs occurred on days 25 and 57 and were 13.1% and 16% below baselines. Control animals showed stable baselines over the study but with moderate variability. In conclusion, rHuEPO exhibits a nonlinear PK with a time-dependent decrease of its CL(Total). During exposure, RET, RBC and Hb showed a tolerance effect. After exposure, the rebound was characterized for RET, RBC, but not Hb.

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Section: Pharmacokineticscontrasting

confidence: 46%

Time‐dependent clearance and hematological pharmacodynamics upon erythropoietin multiple dosing in rats

Ait‐Oudhia

Scherrmann

Krzyzanski

2010

Biopharm & Drug Disp

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“…A majority of the adult pharmacokinetic studies pooled data from patients who received darbepoetin alfa intravenously and via subcutaneous injection [34–36]. These studies used a two-compartment model to describe darbepoetin alfa pharmacokinetics [34–36].…”

Section: Discussionmentioning

confidence: 99%

Population Pharmacokinetics of Darbepoetin Alfa in Conjunction with Hypothermia for the Treatment of Neonatal Hypoxic-Ischemic Encephalopathy

et al. 2015

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Aim The aim of this study was to determine the population pharmacokinetics of darbepoetin alfa in hypothermic neonates with hypoxic-ischemic encephalopathy treated with hypothermia. Methods Neonates ≥36 weeks gestation and <12 h postpartum with moderate to severe hypoxic-ischemic encephalopathy who were undergoing hypothermia treatment were recruited in this randomized, multicenter, investigational, new drug pharmacokinetic study. Two intravenous darbepoetin alfa treatment groups were evaluated: 2 and 10 μg/kg. Serum erythropoietin concentrations were measured using an enzyme-linked immunosorbent assay. Monolix 4.3.1 was used to estimate darbepoetin alfa clearance and volume of distribution. Covariates tested included: birthweight, gestational age, postnatal age, postmenstrual age, sex, Sarnat score, and study site. Results Darbepoetin alfa pharmacokinetics were well described by a one-compartment model with exponential error. Clearance and the volume of distribution were scaled by birthweight (centered on the mean) a priori. Additionally, gestational age (also centered on the mean) significantly affected darbepoetin alfa clearance. Clearance and volume of distribution were estimated as 0.0465 L/h (95 % confidence interval 0.0392–0.0537) and 1.58 L (95 % confidence interval 1.29–1.87), respectively. Conclusions A one-compartment model successfully described the pharmacokinetics of darbepoetin alfa among hypothermic neonates treated for hypoxic-ischemic encephalopathy. Clearance decreased with increasing gestational age.

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“…In adults, Darbe demonstrated even slower absorption, reaching its peak at around 54.1 h after s.c. administration 3 . The absorption rate constant of Darbe in infants following s.c. administration estimated using our model was 0.062 L/h, and the absorption half-life was 11.2 h. The absorption rate constant of Darbe (ka) in adults was reported to be 0.0212 L/h, 17 corresponding to an absorption half-life of 32.7 h. The higher ka value and shorter absorption half-life in infants reflect a much faster absorption process than in adults, which is consistent with the observed data. The lymphatic system represents a major route for the absorption of protein drugs, including Epo 18 , 19 .…”

Section: Discussionmentioning

confidence: 86%

“…Agoram et al 17 performed population pharmacokinetic analysis to characterize Darbe disposition in healthy adults and reported that Darbe pharmacokinetics in adults was well described by a 2-compartment model, with clearance equal to 0.00234 L/h/kg and volume of distribution of central compartment equal to 0.085 L/kg. However, in contrast to the pharmacokinetic parameters in adults, our study revealed a clearance of Darbe in infants that is much more rapid (0.05 L/h/kg, in male infants, and 0.031 L/h/kg in female infants) and that the volume of distribution is much greater (0.84 L/kg).…”

Section: Discussionmentioning

confidence: 99%

Population Pharmacokinetics of Darbepoetin in Infants Following Single Intravenous and Subcutaneous Dosing

Ohls

Christensen

et al. 2017

Journal of Pharmaceutical Sciences

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Darbepoetin alfa (Darbe) is a hyperglycosylated analogue of recombinant human erythropoietin (Epo). The aim of this study was to develop a population pharmacokinetic model for Darbe following intravenous (i.v.) and subcutaneous (s.c.) administration to infants. Data from 2 infant clinical studies (a single i.v. dose study following a 4 μg/kg dose of Darbe, and a single s.c. dose study following 1 μg/kg or 4 mg/kg dose of Darbe) were combined and analyzed simultaneously using nonlinear mixed-effect modeling approach. Darbe population pharmacokinetics was well described by a 2-compartment model with first-order elimination. The covariate analysis identified significant impact of gender on clearance and bodyweight on volume of distribution. The clearance of Darbe was estimated to be 0.050 L/h/kg in male infants and 0.031 L/h/kg in female infants. The predicted population mean value of Vp is 0.84 L/kg, which is associated with the subject’s bodyweight (p < 0.05). Following s.c. administration, the estimated absorption rate (i.e., ka) of Darbe was 0.062 L/h. The model provides a suitable starting point for the development of further pharmacokinetic-pharmacodynamic models in infants in a variety of disease settings. Because the covariate-pharmacokinetic parameter relationships were identified in only 22 infants, further investigation with larger sample size is warranted.

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Population pharmacokinetics of darbepoetin alfa in healthy subjects

Cited by 28 publications

References 29 publications

Time‐dependent clearance and hematological pharmacodynamics upon erythropoietin multiple dosing in rats

Time‐dependent clearance and hematological pharmacodynamics upon erythropoietin multiple dosing in rats

Population Pharmacokinetics of Darbepoetin Alfa in Conjunction with Hypothermia for the Treatment of Neonatal Hypoxic-Ischemic Encephalopathy

Population Pharmacokinetics of Darbepoetin in Infants Following Single Intravenous and Subcutaneous Dosing

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