Development History and Modern Research Progress of TCM Steaming / 中国中医药信息杂志

Steaming is one of the commonly used methods in the processing of Chinese materia medica,which can be used to change the medicinal properties,expand the scope of use,enhance the efficacy,reduce side effects and facilitate slicing.By reviewing ancient herbal texts and literature,this article summarized the historical development of TCM steaming:from the Spring and Autumn period to the Warring States period,it has mainly gone through the stages of germination,growth,maturity,and prosperity.It further sorted out the research progress of modern steaming from the aspects of steaming technology,chemical composition and drug effect changes before and after steaming,and analyzed and discussed the establishment of quality standards of steamed products and the development of traditional and modern processing techniques,with a view to clarifying the mechanism of steaming,and providing basis for standardizing steaming technology,improving the quality standards of steamed decoction pieces and rational clinical application.

Optimization of Water Extraction Technology of Yangxue Jiegu Capsule by Orthogonal Test / 中国药房

OBJECTIVE:To optimize the water extraction technology of Yangxue Jiegu capsule. METHODS:Using adding amount of water,decoction time and decoction times as investigation factors,ferulic acid content,icariin content and yield rate as investigation indexes,orthogonal test was used to optimize the optimal water extraction technology of Yangxue Jiegu capsule;and verification test was conducted. RESULTS:The optimized extraction technology was 10-fold water,extracting 3 times,1 h once. Contents of ferulic acid and icariin were 0.38,1.23 mg/g(n=3),yield rate was 28.2%(n=3),average comprehensive score was 97.11 (RSD=2.77%,n=3). CONCLUSIONS:Optimized extraction technology is feasible,accurate,reliable,and can be used for the extraction and preparation of Yangxue Jiegu capsule.

Preparation and transdermal diffusion of flexible nanoliposomes of ginkgolide B / 中国中药杂志

<p><b>OBJECTIVE</b>To prepare flexible nanoliposomes of Ginkgolid B (GB) and study the transdermal diffusion law.</p><p><b>METHOD</b>Flexible nanoliposomes of GB were prepared by film dispersion method, and the shape and particle size of nanoliposomes were analyzed. GB permeation tests in vitro through the skin of rats were performed in modified Franz diffusion cell. The accumulated permeation amounts of GB alcoholic solution, flexible nanoliposomes of GB and ordinary nanoliposomes of GB were compared.</p><p><b>RESULT</b>The average encapsulation percentage, the particle size, and the Zata potential of the flexible nanoliposomes were (89.52 +/- 1.76)%, and was (208.3 +/- 25.49) nm, and was -49.2 mV, respectively. The accumulated permeation amount of flexible nanoliposomes in 8 hours was 189.97 microg x cm(-2), and its transdermal permeability in 8 hours was 23.75 microg x cm(-2) x h(-1).</p><p><b>CONCLUSION</b>The encapsulation percentage of the flexible nanoliposomes is good,and the stability of the GB nanoliposomes is fine. Flexible nanoliposomes can significantly enhance the diffusion rate of GB through the skin of rats.</p>

Transdermal drug delivery using microneedle array of sinomenine hydrogel patch / 中草药

Objective Using the effect of microneedle array to investigate the feature and rule of transdermal drug delivery of sinomenine hydrogel patch.Methods The microneedles with different length and sinomenine hydrogel patch were prepared;The isolated rat skin was pretreated by different needle-shapes of microneedle array and different timepoints with the same needle-shape,and then sticked the sinomenine patch.The permeation rates of sinomenine were studied using a Franz diffusion cell and compared with passive diffusion of the rat skin untreated.Sinomenine content was measured by HPLC.Results The permeation rates of sinomenine via the skin pretreated with 100 and 200 ?m microneedles were 40.7 and 52.4 times to those of the untreated.The permeation rates of sinomenine via the skin pretreated 7 min with 200 ?m microneedles is 142.0 times to those of the untreated.When skins were pretreated using 200 ?m microneedles with different force, the drug permeation rates were increased with the force increasing.When the force exceeded 5 N,the drug permeation rates were equilibrium.Conclusion When transdermal drug delivery by using microneedle array-hydrogel patch,the permeation rates increase significantly.The needle-shape,skin pretreating time,and force of the microneedles play the important roles in the transdermal drug delivery.