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  2. Applicability of free drug hypothesis to drugs with good membrane permeability that are not efflux transporter substrates: A microdialysis study in rats

Applicability of free drug hypothesis to drugs with good membrane permeability that are not efflux transporter substrates: A microdialysis study in rats

  • Pharmacol Res Perspect. 2020 Apr;8(2):e00575. doi: 10.1002/prp2.575.
Chun Chen 1 Hongyu Zhou 1 Chi Guan 1 Huanhuan Zhang 1 Yingying Li 1 Xue Jiang 1 Zheng Dong 1 Yuanyuan Tao 1 Juan Du 1 Shuyao Wang 1 Teng Zhang 1 Na Du 1 Junyang Guo 1 Yaqiong Wu 1 Zehai Song 1 Haofei Luan 1 Yu Wang 1 Hongwen Du 1 Shaofeng Zhang 1 Chen Li 1 Hang Chang 1 Tao Wang 1
Affiliations

Affiliation

  • 1 Drug Metabolism and Pharmacokinetics (DMPK) Department, Pharmaron, Beijing, China.
Abstract

In clinical pharmacology, the free drug hypothesis has been widely applied in the interpretation of the relationship between pharmacokinetics and pharmacodynamics (PK/PD). The free drug hypothesis assumes that the unbound drug concentration in blood is the same as that in the site of action at steady state. The objective of this study is to demonstrate whether the free drug hypothesis is universally applicable for all drugs. The unbound concentrations of the 18 compounds in blood and in brain interstitial fluids (ISF) at steady state following constant intravenous infusion were simultaneously monitored up to 6 hours via in vivo microdialysis technique. Based on the permeability and efflux ratio (ER), the test compounds can be divided into two classes. Class I includes the compounds with good membrane permeability that are not substrates of efflux transporters (eg, P-gp, BCRP, and MRPs), whereas Class II includes the compounds that are substrates of efflux transporters. The steady-state unbound drug concentrations in blood, brain, and CSF are quantitatively very similar for Class I compounds, whereas the steady-state unbound concentrations in the brain and CSF are significantly lower than those in blood for Class II compounds. These results strongly suggest that the free drug hypothesis is not universal for all drugs but is only applicable for drugs with good permeability that are not substrates of efflux transporters.

Keywords

BBB; efflux transporter; microdialysis; permeability; unbound concentration.

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