OBJECTIVE:To prepare anti-tumor drug H6(lactone compound)polymeric micelles,and to investigate its in vitro anti-tumor effects. METHODS:Using mPEG2000-PCL4000 as carrier,H6/mPEG2000-PCL4000 micelles were prepared. Using particle size, PDI and 48 h whether to produce precipitation as indexes,feeding ratio,H6 concentration,volume ratio of organic solvent were screened. The encapsulation efficiency and drug-loading amount of micelle were all detected. MTT assay was used to detect the tox-icity of micelles and H6 solution to human non-small cell lung cancer cell A549 and human lung cancer cell H460. RESULTS:The screened formulation was as follows as feeding ratio of 1∶25,H6 concentration of 2 mg/mL,the ratio of ethanol to chloroform of 1∶1(V/V). The parameters of prepared H6/mPEG2000-PCL4000 micelles were as follows as particle size of(40.74±0.116 3)nm,PDI of(0.101±0.006),encapsulation efficiency of(94.87±0.016 3)%,drug-loading amount of(7.07±0.001 5)%(n=3). IC50 of mi-celles and H6 solution to A549 cell were 15.62 and 12.57 nmol/L;IC50 of micelles and H6 solution to H460 cell were 27.68 and 15.19 nmol/L. CONCLUSIONS:H6/mPEG2000-PCL4000 micelles are prepared successfully and show in vitro anti-tumor effects.

OBJECTIVE:To establish the detection method for anti-inflammatory compound HB0314 in plasma of rats,and study on its pharmacokinetic characteristics in rats in vivo. METHODS:UPLC-MS/MS was performed on the column of Waters Ac-quity UPLCTM BEH C18 with mobile phase of 0.1% formic acid aqueous solution(A)-methanol(B)by gradient elution(0-2 min, 70%-90% B) at flow rate of 0.25 mL/min,column temperature was 30 ℃,and injection volume was 5 μL. Electrospray ion source was used,capillary voltage was 3 kV,ion source temperature was 150 ℃,desolvation gas temperature was 450 ℃,desol-vent air flow volume was 600 L/h,cone air flow volume was 45 L/h,and the inner standard was tetrahydropalmatine. 12 rats were randomly divided into iv group and ig group,6 in each group. Rats were intravenously injected and intragastrically administrated HB0314 solution 5,10 mg/kg. Sample blood 0.4 mL were taken from the jugular vein blood before administration and after 5,15, 30,60,120,240,360,480,600,720,1440 min of administration to determine the HB0314 plasma concentration. DAS 2.0 software was used to calculate the pharmacokinetic parameters and absolute bioavailability. RESULTS:The linear range of HB0314 was 1-1000 ng/mL(r=0.9955),and the lower limit of quantification was 1 ng/mL. RSDs of extra-day and daytime precision,sta-bility were not higher than 8.45%(n=5);recovery were 68.21%-90.29%(RSD≤11.20%,n=5),and matrix effects were 82.63%-106.90%(RSD≤6.75%,n=5). After intravenous injection and intragastric administration,AUC0-24 h were (270.267 ± 21.164), (252.755 ± 26.169)μg·h/L (n=6);t1/2z were (8.722 ± 2.266),(11.877 ± 4.517) h (n=6);and absolute bioavailability was 56.79%. CONCLUSIONS:The method is rapid,simple,and can be used for the determination of HB0314 content in plasma of rats. HB0314 shows high oral absolute bioavailability in rats in vivo,indicating that post-dosage form design may be considered as oral anti-inflammatory drugs.