The fenrou zhijian theory in The Inner Canon of Huangdi and the stratified treatment of painful bi syndrome of meridian tendons / 中国针灸

The fenrou zhijian is defined as potential gap between different layers in the three-dimensional network structure formed by the twelve meridian tendons. Various pathological changes of the meridian tendons lead to the adhesion and closure of fenrou zhijian, causing abnormal mechanical conduction of the meridian tendon system, which in turn leads to painful bi syndrome of meridian tendons. As such, restarting the fenrou zhijian is the key to acupuncture treatment for painful bi syndrome of meridian tendons. Under the guidance of musculoskeletal ultrasound, the level and the angle of needle insertion of acupuncture at fenrou zhijian could be accurately controlled, the efficacy of acupuncture is improved.

Interpretation of therapeutic effect of / 中国针灸

Given that the biomechanical theory cannot well explain the therapeutic effect of

Application of metabolomics and related technologies in research and development field of traditional Chinese medicine / 中国中药杂志

Internal environment of metabolism of traditional Chinese medicine (TCM) is a dynamic process, which is in line with the "holistic-dynamic-comprehensive-analytic" characteristics of metabonomics, therefore metabonomics have a unique advantage to reveal the metabolic pattern of TCM. The application of metabonomics in TCM has great practical significance in understanding the pharmacodynamic/toxic effect material basis, mechanisms and guiding for determination of dosage and treatment course; At the same time, the scientific compatibility of TCM prescription, the germplasm resources of TCM and the preclinical safety/toxicity can be widely researched. At present, metabolomics has become a leading technology in many industries and fields including the research and development of TCM. The core of metabolomics is analytical technology, because comprehensive metabolite profiles or accurate identification of known metabolites can be obtained from complex biological samples only by appropriate analytical techniques. At the same time, a series of bioinformatics/chemical informatics/stoichiometry methods are needed to process the data, so as to obtain the potential law and information in the mass data. In this paper, the concept of metabolomics, relevant analytical techniques, data processing methods and applications were explained and analyzed clearly. In addition, the core problems and countermeasures of metabolomics were summarized, and the future development of metabolomics was prospected as well.

Pharmacokinetics of Maxing Shigan decoction in normal rats and RSV pneumonia model rats by HPLC-MS/MS / 中国中药杂志

To establish a LC-MS/MS method to determine the concentrations of liquiritin, glycyrrhizin, glycyrrhetinic acid, amygdalin, amygdalin prunasin, ephedrine, pseudoephedrine and methylephedrine of Maxing Shigan decoction in rat plasma, and study the differences on their pharmacokinetic process in normal rats and RSV pneumonia model rats. After normal rats and RSV pneumonia model rats were orally administered with Maxing Shigan decoction, the blood was collected from retinal vein plexus of different time points. Specifically, tetrahydropalmatine was taken as internal standard for determining ephedrine, while chloramphenicol was taken as internal standard for determining other components. After plasma samples were pre-treated as the above, the supernatant was dried with nitrogen blowing concentrator and then redissolved with methylalcohol. The chromatography was eluted with mobile phase consisted of acetonitrile and 0.1% formic acid solution in a gradient manner. ESI sources were adopted to scan ingredients in ephedra in a positive ion scanning mode and other ingredientsin a negative ion scanning mode. The multiple-reaction monitoring (MRM) method was developed the plasma concentration of each active component. The pharmacokinetic parameters of each group were calculated by using Win-Nonlin 4.1 software and put into the statistical analysis. The result showed the plasma concentration of the eight active ingredients, i.e., liquiritin, glycyrrhizin, glycyrrhetinic acid, amygdalin, amygdalin prunasin, ephedrine, pseudoephedrine and methylephedrine within the ranges of 1.04-1040, 1.04-1040, 0.89-445, 1.05-4200, 1.25-2490, 0.3-480, 0.3-480, 0.3-480 microg x L(-1), with a good linearity and satisfactory precision, recovery and stability in the above ingredients. After modeling, except for glycyrrhetinic acid whose pharmacokinetic parameters were lacked due to the data missing, all of the rest components showed significant higher Cmax, AUC(0-1) and lower clearance rate (CL) than that of the normal group, indicating the increase in absorption in rats in the pathological state by reducing the clearance rate. The method is accurate and sensitive and so can be used to determine the plasma concentrations of the eight active ingredients in Maxing Shigan decoction. RSV pneumonia-infected rats absorbed more ingredients in Maxing Shigan decoction.

Simultaneous determination of 9 major components of dachengqi tang in rat plasma by UPLC-MS/MS / 中国中药杂志

The study established a UPLC-MS/MS method that is used for simultaneous determination nine major bioactive compounds of Dachengqi Tang in rat plasma. Using Aglient C18 column (2.1 mm x 50 mm,1.7 microm) was chromatographed, using methanol-5 mmol x L(-1) ammonium formate mobile phase gradient, elution 0.3 mL x min(-1). In the plasma pre-treatment process, not only the method of methanol and acetonitrile protein precipitation was investigated, and different factors extraction solvent, the type of the scroll time, the number and the type of extraction solvent, the extraction volume of the extraction solution of liquid-liquid extraction is investigated. Finally, with ibuprofen as an internal standard, using ethyl acetate liquid-liquid extraction method pretreatment blood, N2 dry reconstituted supernatant after centrifugation UPLC-MS/MS analysis, in electrospray ionization (ESI) negative mode, using multiple reaction monitoring mode for testing. The linear range of emodin, rhein, aloe-emodin, chrysophanol, magnolol, honokiol, hesperidin and hesperitin is 0.33-660, 0.40-792, 0.41-827, 0.34-680, 0.45-907, 0.46-927, 0.43-867, 0.34-683, 0.39-787 microg x L(-1) respectively, good linear relationship; and extraction recovery were greater than 69.39%, days after the day of the RSD is less than 15%. This method can be used to study the rat gastric large bearing gas after Dachengqi Tang, the simultaneous determination of nine components in plasma for its pharmacokinetics and efficacy material base to provide a theoretical basis.

Study on determination of anthraquinones in dachengqi tang residues of Magnolia officinalis and Citrus aurantium removed in decoction process / 中国中药杂志

<p><b>OBJECTIVE</b>The traditional decoction method of Dachengqi Tang is that "First boiling Magnolia officinalis and Citrus aurantium with a pipeful of water, taking out five litres from the decoction, removing residues, adding rheum officinale, boiling again, taking out two litres from it, removing residues, adding mirabilite, boiling it with low fire". According to it, residues of M. officinalis and C. aurantium should be removed after decocting. This essay aims to study the content of anthraquinones, in order to proof whether the removal of residues of M. officinalis and C. aurantium is scientific.</p><p><b>METHOD</b>The traditional method was adopted to prepare Dachengqi Tang. Decoction A (original method) was obtained by removing residues of M. officinalis and C. aurantium, whereas decoction B was obtained without removing residues of M. officinalis and C. aurantium. The content of anthraquinones of both methods was determined with HPLC.</p><p><b>RESULT</b>The content of both combined and free anthraquinones in decoction A was higher than that of decoction B. The content of total anthraquinones in residues of decoction A was lower than that of residue B.</p><p><b>CONCLUSION</b>The traditional decoction method of removing residues of M. officinalis and C. aurantium from Dachengqi Tang is scientific, because it improves the dissolution rate of effective ingredients, which provides a theoretical basis for effective substances of the drug.</p>

Advances in studies compatibility applied toattenuation and synergy of Tripterygium wilfordii / 中国中药杂志

Review the research and development status that Chinese medicine are compatible with Tripterygium wilfordii for attenuation and synergy for recent year. From modern medicine view and Chinese medicine dialectical perspective explain the mechanisms and methods of compatibility applied to attenuation and synergy of T. wilfordii. Provide a reference for reasonable application of other toxic Chinese medicine. Prefer the suggestion that Chinese medicinal formulae can be developed into Chinese medicine compound preparation.