Table 1.
PK-PD model components and related mechanisms of action of drugs.
| Drug | PK model components | PD model components | Contribution of PK-PD modeling |
|---|---|---|---|
| Paliperidone palmitate | One-compartment model with First-order elimination First-order absorption Zero-order absorption Flip-flop kinetics |
Dopamine D2 receptor occupancy regulation (Kapur et al., 2000) | Optimized formulation and dose regimen Accelerated the clinical trial |
| Liposomal doxorubicin | Two-compartment model for doxorubicin One-compartment model for liposome Flip-flop kinetics |
Biophase model (Sheiner et al., 1979) Cell-killing kinetic model (Jusko, 1973) |
Evaluated the influence of drug-, carrier-, and system-specific parameter on anti-tumor efficacy |
| Erythropoiesis stimulating agents | Two-compartment model First-order absorption Flip-flop kinetics TMDD model (Mager and Jusko, 2001a) |
The operational model of agonism (Black and Leff, 1983) Precursor-Pool dependent indirect response model (Sharma et al., 1998) Transit compartment model (Mager and Jusko, 2001b) |
Quantified minimal-effect concentration Explained the relationship between in vivo binding affinity and effect |
| Brentuximab-vedotin | Two-compartment model with first-order elimination |
Emax model (Wagner, 1968) Biophase model (Sheiner et al., 1979) Transit compartment model (Mager and Jusko, 2001b) |
Predicted the clinical response by preclinical data |