Home
|
Help
|
Contact
Sign in
WPRIM Management System>
DCMS
>
Chinese Traditional and Herbal Drugs
>
2019
>
50
>
7
Volume:
50
Issue:
7
1. Strategies for energy utilization of Chinese materia medica residue
Page:1505—1514
2. Strategy and mechanism of green productivity realization in green supply chain of Chinese materia medica
Page:1515—1522
3. A new quinone compound from Eleutherine americana
Page:1523—1526
4. Chemical constituents of underground parts of Astragalus tatsienensis var. incanus
Page:1527—1531
5. A new triterpenoid sapogenin from flowers of Bombax malabaricum
Page:1532—1534
6. Chemical constituents from Achyrocline satureioides (I)
Page:1535—1540
7. Chemical constituents of alkaloids part of Cephalotaxus hainanensis
Page:1541—1545
8. Chemical constituents of Euphorbia sikkimensis
Page:1546—1550
9. Chemical constituents from Tibetan herbal medicines Biebersteinia heterostemon
Page:1551—1554
10. Comparative study of volatile components of Magnoliae Flos, Magnoliae Flos kernels, and Magnoliae Flos bracts
Page:1555—1561
11. Preparation and characterization of ginkgolide K-loaded PLGA-PEG nanoparticles and its neuroprotective activity in vitro
Page:1562—1568
12. Preparation and characterization of APGA modified artemether liposomes
Page:1569—1575
13. Effects of different drying methods on multiple chemical components in Leonurus japonicus based on UPLC-QTRAP®/MS2
Page:1576—1586
14. Treatment of triple-negative breast cancer with anti CD133 antibody-modified shikonin-loaded microemulsion
Page:1587—1595
15. Preparation, characterization and water solubility evaluation of porous starch loaded artemisinin microspheres
Page:1596—1602
16. Study on synergistic mechanism of pangolin in high temperature sand-fried processing
Page:1603—1609
17. Reaserch on extraction technology of polysaccharides from Acanthopanax senticosus waste residue by response surface methodology
Page:1610—1613
18. Evaluation of metabolism-effect/toxicity of Epimedium sagittatum based on zebrafish M-Act/Tox integration method
Page:1614—1620
19. Water extracts of Astragali Radix prevent lung carcinogenesis via inhibiting PI3K/Akt pathway
Page:1621—1628
20. In vitro anti-MRSA effect of clove oil combined with β-lactam antibiotics against methicillin-resistant Staphylococcus aureus
Page:1629—1635
21. Preparation and anticancer effect of natural active compound usenamine nano-liposomes
Page:1636—1640
22. Antibacterial spectrum of silibinin and isomers and its antibacterial effect with antibiotics
Page:1641—1648
23. Study on borneol combined with astragaloside IV and Panax notoginseng saponins promoting bioactive components into brain in cerebral ischemia/reperfusion model of rats
Page:1649—1656
24. Effect of tanshinone IIA on chemosensitivity of doxorubicin in breast cancer cells and its related mechanisms
Page:1657—1663
25. Mechanism of polypeptide extract from scorpion venom inhibiting Hedgehog signaling transduction in K562/BALB/c-nu leukemia mice
Page:1664—1668
26. Cloning and expression of three PAL genes in Astragalus membranaceus
Page:1669—1675
27. Cloning and related bioinformatics analysis of new cytochrome NADPH P450 reductase gene in Glycyrrhiza uralensis
Page:1676—1681
28. Quality evaluation of Sparganii Rhizoma based on combinative method of HPLC fingerprint, multi-component assay, and chemometrics
Page:1682—1689
29. Rheum officinale at different years old stage
Page:1690—1697
30. Determination of anticoagulating bioactivity in Chuanxiong Rhizome and related Chinese patent medicines
Page:1698—1702
31. HPLC fingerprint of Lomatogonium rotatum
Page:1703—1707
32. Research progress on dose-effect relationship of Chinese materia medica
Page:1708—1712
33. Application on imidazolium ionic liquid in extraction of flavonoids from natural products
Page:1713—1718
34. New progress on anti-influenza activity and mechanism of Chinese materia medica
Page:1719—1726
35. Research progress on heavy metals removal from plant extracts
Page:1727—1733
36. Research progress on derivative cantharidin bioactivities and toxic regulations
Page:1734—1738
37. Advances in chemical constituents of Schisandra chinensis and activities of anti-type 2 diabetes
Page:1739—1744
