Digital Chinese Medicine (Sep 2018)

Study of Linearization of Hill Dose-Effect Curve with Metabolic Velocity Instead of Drug Concentration

  • Run-Nan LIU,
  • Yu TANG,
  • Ping-An LIU,
  • Wen-Long LIU,
  • Qi-Meng FAN,
  • Si-Yang CHEN,
  • Peng HE,
  • Hai-Ying LI,
  • Fu-Yuan HE,
  • Kai-Wen DENG

Journal volume & issue
Vol. 1, no. 3
pp. 198 – 210

Abstract

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ABSTRACT: Objective To explore the velocity-effect relationship in order to the establish linearization of effect on an equation with regard to the consistency of the Hill dose-effect expression with the metabolic kinetics of receptors.Methods The linear velocity-effect expression was obtained by solving multivariant differential equation groups, which were established to compare the coincidences and basic relations between the Hill dose-effect and metabolic kinetic Michaelis-Menten equation for receptors. The validation test was conducted with acetylcholine, adrenaline, and their mixture as model drugs.Results The linear velocity-effect modelling was represented in vivo or in vitro, for single and multidrug systems. Pharmacodynamic parameters, especially suitable for multicomponent CMM formulas, could be determined and calculated for single or multicomponent formulas at high saturating or low linear concentration for receptors. The validation test showed that the pharmacodynamic parameters of acetylcholine were: k, 2.675×10-3 s-1; ka, 5.786×10-9 s-1; km, 2.500×10-7 s-1; α, 4.619×109 张 s· m g-1; E0, 13 张 (P < 0.01) and those of adrenaline were: k, 1.415×10-3 s-1; ka, 5.846×10-9 s-1; km, 2.300×10-7 s-1; α, -1.627×109 张 s· m g-1; E0, 9.2 张(P < 0.01). For the mixture of the two components, the values were: α, 1.375×1010 张 s· m g-1; -6.150×109 张 s m g-1 for acetylcholine and adrenaline, respectively, and E0 was 7.08 张 in both, with the other parameters unchanged (P < 0.01).Conclusion The velocity-effect equation can linearize the Hill dose-effect relationship, which can be applied to study the pharmacodynamics and availability of CMM formulations in vivo and in vitro. Keywords: Hill dose-effect equation, Velocity-effect equation, Pharmacodynamics with chromatographic fingerprint (PDCF), Pharmacy metrology with chromatographic fingerprint (PMCF), Pharmacokinetics with chromatographic fingerprint (PKCF), Availability of CMM formulas, Acetylcholine, Adrenalin, Quantitative pharmacology