The pharmacokinetics and pharmacodynamics of recombinant human erythropoiet
in (rh-EPO; CAS for EPO: 11096-26-7) after repeated intravenous and subcuta
neous administrations in rats were studied. Administration of rh-EPO by bot
h routes caused significant increases in hematocrit. The pharmacokinetics o
f rh-EPO after intravenous and subcutaneous administration exhibited nonlin
earity. The pharmacodynamics of rh-EPO was analyzed using the maximum effec
t (E-max) and sigmoid maximum effect (sigmoid E-max) models. Both models in
volved the assumption that rh-EPO in plasma would stimulate the proliferati
on of erythroid progenitor cells. Akaike's information criterion for the E-
max model was lower than that for the sigmoid E-max model, suggesting that
the E-max model might be an optimal model. The rh-EPO concentration at whic
h the effect is half of the maximum was 0.383 ng/ml. This pharmacodynamic a
nalysis suggests that the maintenance of effective plasma concentration mig
ht be important for the efficacy of rh-EPO.