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DDMODEL00000268: Remoxipride translational CNS PK/PD model- JPKPD- 2012

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  • Mechanism-based PK-PD model for the prolactin biological system response following an acute dopamine inhibition challenge: quantitative extrapolation to humans.
  • Stevens J, Ploeger BA, Hammarlund-Udenaes M, Osswald G, van der Graaf PH, Danhof M, de Lange EC
  • Journal of pharmacokinetics and pharmacodynamics, 10/2012, Volume 39, Issue 5, pages: 463-477
  • Division of Systems Biomedicine and Pharmacology, Gorlaeus Laboratories, Leiden-Academic Center for Drug Research, Leiden University, Einsteinweg 55, 2333 CC, Leiden, The Netherlands.
  • This is a mechanism-based pharmacokinetic-pharmacodynamic (PK-PD) model for the biological system prolactin response following a dopamine inhibition challenge using remoxipride as a paradigm compound. After assessment of baseline variation in prolactin concentrations, the prolactin response of remoxipride was measured following (1) single intravenous doses of 4, 8 and 16 mg/kg and (2) following double dosing of 3.8 mg/kg with different time intervals. The mechanistic PK-PD model consisted of: (i) a PK model for remoxipride concentrations in brain extracellular fluid; (ii) a pool model incorporating prolactin synthesis, storage in lactotrophs, release into- and elimination from plasma; (iii) a positive feedback component interconnecting prolactin plasma concentrations and prolactin synthesis; and (iv) a dopamine antagonism component interconnecting remoxipride brain extracellular fluid concentrations and stimulation of prolactin release. The most important findings were that the free brain concentration drives the prolactin release into plasma and that the positive feedback on prolactin synthesis in the lactotrophs, in contrast to the negative feedback in the previous models on the PK-PD correlation of remoxipride. An external validation was performed using a dataset obtained in rats following intranasal administration of 4, 8, or 16 mg/kg remoxipride. Following simulation of human remoxipride brain extracellular fluid concentrations, pharmacodynamic extrapolation from rat to humans was performed, using allometric scaling in combination with independent information on the values of biological system specific parameters as prior knowledge. The PK-PD model successfully predicted the system prolactin response in humans, indicating that positive feedback on prolactin synthesis and allometric scaling thereof could be a new feature in describing complex homeostatic mechanisms.
Liesbeth de Lange
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  • Model owner: Liesbeth de Lange
  • Submitted: Dec 13, 2017 5:05:48 PM
  • Last Modified: Dec 17, 2017 2:01:51 PM
  • Version: 7 public model Download this version
    • Submitted on: Dec 17, 2017 2:01:51 PM
    • Submitted by: Liesbeth de Lange
    • With comment: Edited model metadata online.
  • Version: 3 public model Download this version
    • Submitted on: Dec 13, 2017 5:05:48 PM
    • Submitted by: Liesbeth de Lange
    • With comment: Updated model annotations.