Article date: September 1996
By: AGNES SOUILLARD, MICHEL AUDRAN, FRANÇOISE BRESSOLLE, RAYNALD GAREAU, ALAIN DUVALLET, JEAN‐LOUIS CHANAL, in Volume 42, Issue 3, pages 355-364
1The pharmacokinetics of recombinant human erythropoietin (rHuEpo) were initially determined in two healthy volunteers after a single subcutaneous dose (50 u kg−1). Twenty subjects then received repeated subcutaneous administrations of high dose (200 u kg−1) rHuEpo and 10 subjects received placebo. An immunoradiometric assay was used to measure the concentrations of erythropoietin (Epo) in serum and urine.
2Serum Epo concentration‐time profiles were best described by a one‐compartment open model with zero‐order input. The mean elimination half‐life (±s.d.) was 42.0±34.2 h. Clearance, uncorrected for bioavailability, was 0.05±0.01 l h−1 kg& minus;1. Erythropoietin concentrations returned to normal values in serum and urine, 7 and 4 days after the last administration, respectively.
3The recombinant hormone was well tolerated. Significant changes in reticulocytes and red blood cells, haemoglobin concentrations and haematocrit were observed after administration of rHuEpo. In the control group, these parameters remained unchanged.
4The change in reticulocytes was used as an index of the therapeutic effect of rHuEpo. The concentration‐effect relationship was best described by an exponential model.
5These data show the limitations of the measurement of Epo concentrations in blood and urine samples, collected in athletes during competition, for antidoping control. Epo doping can be detected only during or within 4 to 7 days of ending, a course of rHuEpo.
DOI: 10.1046/j.1365-2125.1996.41911.x
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