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China Pharmacy ; (12): 2752-2757, 2018.
Article in Chinese | WPRIM | ID: wpr-704881

ABSTRACT

OBJECTIVE:To develop the determination method for plasma concentration of effective components in essential oil from Curcuma phaeocaulis,and to study its integrated pharmacokinetics. METHODS:Sixteen rats were given the extract of essential oil from C. phaeocaulis 1.0 g/kg(by crude drug)intragastrically;blood samples 300-400 μL from orbit were collected 0, 0.17,0.5,1,2,2.5,3,4,6,8,10,12,24 h after medication. The plasma concentration of α-pinene,1,8-cineole,borneol, β-elemene,curcumol,germacrone and curdione in rats were determined by GC-MS. The determination was performed on DB-5 capillary column,using helium as carrier gas,at the flow rate of 1.2 mL/min. The injector temperature was 270 ℃,by temperature programming,and split ratio was 20∶1. The sample size was 1 μ L. The ion source was electrospray ion source. The selective reaction monitoring mode was used for the positive ion scanning in the range of m/z 20-500. Pharmacokinetic parameters of above effective components were calculated by using DAS 2.0 software. The weight coefficients were customized according to the proportion of AUC0-∞in the sum of AUC0-∞. The integrated pharmacokinetic parameters of multiple effective components in essential oil from C. phaeocaulis were calculated. RESULTS:The linear range of α-pinene,1,8-cineole,borneol,β-elemene, curcumol, germacrone, and curdione were 2.71-173.54, 7.76-496.88, 3.37-215.72, 21.68-1 387.50, 40.21-2 573.44, 24.84-3 179.69,47.78-3 057.81 ng/mL,respectively (r>0.99). The lower limits of quantitation were 2.71,7.76, 3.37,21.68,40.21,24.84,47.78 ng/mL,respectively. The precision,accuracy and matrix effects were in line with related requirements of quantitative analysis of biological samples. The pharmacokinetic parameters of α-pinene,1,8-cineole,borneol, β-elemene,curcumol,germacrone,and curdione were as follows that cmaxwere (34.72 ± 9.97),(99.86 ± 5.54),(16.10 ± 3.37), (248.98±86.19),(673.75±104.15),(2 353.64±637.83),(2 420.04±708.51)ng/mL;tmaxwere(2.33±0.29),(0.67±0.29), (1.33±0.58),(1.83±0.76),(0.83±0.29),(0.89±0.18),(1.17±0.76)h;t1/2were(8.64±1.46),(8.98±1.63),(12.43± 2.88),(19.86 ± 4.05),(15.63 ± 5.50),(14.17 ± 4.13),(7.14 ± 0.67)h;AUC0-twere (189.78 ± 89.10),(454.74 ± 82.43), (100.55±8.27),(1 067.37±216.55),(3 154.16±405.94),(16 501.24±663.88),(12 524.92±3 222.10)ng·h/mL;AUC0-∞were(229.57±93.50),(524.32±81.67),(146.28±10.74),(2 092.70±416.18),(5 388.65±661.86),(28 198.87±4 102.62), (14 139.35 ± 3 109.19)ng·h/mL,respectively. After integration,the pharmacokinetic parameters were as follows that cmaxwas 1 880.94 ng/mL; tmaxwas 0.50 h; t1/2was 11.22 h;AUC0-twas 13 050.89 ng·h/mL;AUC0- ∞was 19 015.21 ng·h/mL. CONCLUSIONS: The method can be used for the detection of plasma concentration of effective components in rats;pharmacokinetic parameters of essential oil from C. phaeocaulis after integration are greatly different from single effective component,which can provide reference for characterization of its overall pharmacokinetics.

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