Pharmacokinetic characterization of hydroxylpropyl-beta-cyclodextrin-included complex of cryptotanshinone, an investigational cardiovascular drug purified from Danshen (Salvia miltiorrhiza).
1. The study aimed to investigate the pharmacokinetics of cryptotanshinone in a hydroxylpropyl-beta-cyclodextrin-included complex in dogs and rats. 2. Animals were administrated the inclusion complex of cryptotanshinone and the concentrations of cryptotanshinone and its major metabolite tanshinone IIA were determined by a liquid chromatography-tandem mass spectrometry (LC-MS/MS) method. 3. Cryptotanshinone in inclusion complex was absorbed slowly after an oral dose, and the C(max) and AUC(0-)(t) were dose-proportional. The bioavailability of cryptotanshinone in rats was (6.9% +/- 1.9%) at 60 mg kg(-1)and (11.1% +/- 1.8%) in dogs at 53.4 mg kg(-1). The t(1/2) of the compound in rats and dogs was 5.3-7.4 and 6.0-10.0 h, respectively. Cryptotanshinone showed a high accumulation in the intestine, lung and liver after oral administration, while the lung, liver and heart had the highest level following intravenous dose. Excretion data in rats showed that cryptotanshinone and its metabolites were mainly eliminated from faeces and bile, and the dose recovery rate was 0.02, 2.2, and 14.9% in urine, bile, and faeces, respectively. 4. The disposition of cryptotanshinone in an inclusion complex was dose-independent and the bioavailability was increased compared with that without cyclodextrin used to formulate the drug. Cryptotanshinone was distributed extensively into different organs. Excretion of cryptotanshinone and its metabolites into urine was extremely low, and they were mainly excreted into faeces and bile.
Pan Y, Bi HC, Zhong GP, Chen X, Zuo Z, Zhao LZ, Gu LQ, Liu PQ, Huang ZY, Zhou SF, Huang M.
School of Pharmaceutical Sciences, Sun Yat-sen University, Guangzhou, China.
March 16th, 2008 | Posted in MED4 | No Comments
In vivo approach for the evaluation of mechanism-based inhibition of cytochrome P450 3A in rats.
1. There have been no reports showing that the area under the concentration-time curve (AUC) of a probe drug is elevated due to mechanism-based inhibition (MBI) of drug-metabolizing enzymes in animals. This study ascertained that mechanism-based inhibitors reported to induce drug-drug interactions (DDIs) in humans also caused MBI in rats. 2. Midazolam (MDZ), mainly metabolized by cytochrome P450 3A in rats, and mibefradil, which showed the most intense time-dependent inhibition among the inhibitors tested, were selected as the probe and the inhibitor, respectively. Following pretreatment of mibefradil at 24 h before MDZ administration in rats, the C(max) and AUC values of MDZ were significantly elevated in comparison with the control. The free plasma concentration of mibefradil was substantially lower than the IC(50) value observed in the in vitro inhibition study, suggesting that the DDI was due to MBI. 3. It is concluded that the evaluation of MBI in rats in vivo in combination with in vitro data using human enzymes could be useful to evaluate risk in clinical studies.
Sekiguchi N, Kato M, Takada M, Watanabe H, Higashida A, Sakai S, Ishigai M, Aso Y.
Pre-Clinical Research Department, Shizuoka, Japan.
March 16th, 2008 | Posted in MED4 | No Comments
Prediction of metabolic clearance using fresh human hepatocytes: Comparison with cryopreserved hepatocytes and hepatic microsomes for five benzodiazepines.
1. Predictions of in vivo intrinsic clearance from cryopreserved human hepatocytes may be systematically low. In the current study, the metabolite kinetics of a series of CYP3A4 substrates (benzodiazepines) in fresh human hepatocytes from five donors, via a major UK supplier, were investigated and compared with those previously reported (by the authors\’ laboratory) for cryopreserved human hepatocytes and hepatic microsomes. 2. A high incidence of autoactivation (up to tenfold) and heteroactivation (by testosterone, up to 14-fold) among the major pathways was observed. CYP capacity (V(max)) was marginally lower and \’affinity\’ constants (K(M), S(50)) were marginally greater compared with cryopreserved hepatocytes. 3. Average intrinsic clearance (based on maximal clearance, CL(max)) was sevenfold lower than in cryopreserved hepatocytes (reflecting sensitivity of intrinsic clearance estimation in vitro to mechanistic parameter values, particularly those involving atypical kinetics), but scaled intrinsic clearances for fresh (and cryopreserved) hepatocytes were within the range previously determined in hepatic microsomes. 4. There was no evidence from this series of studies that fresh hepatocytes provide quantitatively improved estimates of intrinsic clearance over cryopreserved hepatocytes.
Hallifax D, Galetin A, Houston JB.
Centre for Applied Pharmacokinetic Research, School of Pharmacy and Pharmaceutical Sciences, University of Manchester, Manchester, M13 9PT, UK.
March 16th, 2008 | Posted in MED4 | No Comments
March 16th, 2008 | Posted in MED4 | No Comments
March 16th, 2008 | Posted in MED4 | No Comments
March 16th, 2008 | Posted in MED4 | No Comments
March 16th, 2008 | Posted in MED4 | No Comments
March 16th, 2008 | Posted in MED4 | No Comments
March 16th, 2008 | Posted in MED4 | No Comments
March 16th, 2008 | Posted in MED4 | No Comments
