Resource Investigation for Endangered Wild Ferula sinkiangensis Based on Low Altitude Remote Sensing / 世界科学技术-中医药现代化

As the specific endangered medicinal plant in Xinjiang, resources and distribution of Ferula sinkiangen-sis are important for biodiversity conservation and sustainable development of Chinese medicine resources. The spa-tial distribution and resources of F. sinkiangensis were researched based on low altitude remote sensing and sample investigation. The results showed that the optimum working time for F. sinkiangensis monitoring by low altitude remote sensing was the nearby 5 hills, which covered about 0.88 km2. It was suggested that the fence area should be expanded for protection. According to the results of low altitude remote sensing, the amount of F. sinkiangensis in yellow (diameter exceeding 0.3 m) was about 3 191. However, the sample investigation on amount of F. sinkiangensis in yellow (diameter exceeding 0.3 m) was about 2 752. The error between them was 14%. The monitoring time and range for F. sinkiangensis by low altitude remote sensing were also ensured. It was concluded that low altitude re-mote sensing had the advantage of quickly receiving distribution situation of F. sinkiangensis, which can effectively evaluate dynamic changes of F. sinkiangensis in Xinjiang.

Studies on the optimization of extraction method and content of different parts in XinJiang Bergenia crassifolia (L.) / 中国生化药物杂志

Objective To extraction method optimization and the content of the different parts of Xinjiang Bergenia crassifolia (L.), provide the basis for efficient extraction of Bergenia crassifolia pigment. Method Using the orthogonal experiment, the alcohol extraction process of ethanol concentration, dosage of ethanol, extraction time, extraction times, as well as to Bergenia crassifolia pigment content of the different part. Results Of optimization, the best ethanol extract of xinjiang Bergenia crassifolia pigment process conditions is 8 times the amount of 50%ethanol, extracting 3 times, each time 0.5 h. In Bergenia crassifolia pigment content of different parts exists obvious difference. Bergenia crassifolia pigment content of Taproot and fibrous root is higher, at 8.65%to 9.58%, while Bergenia crassifolia pigment content of the leaves is relatively low, at just 0.15%. Bergenia crassifolia pigment content of leaves significantly higher than the old leaves. Conclusion This experimental study on efficient extraction of xinjiang Bergenia crassifolia pigment to provide strong technical support and theoretical basis.

Speciation analysis of harmful elements in Rhei Radix et Rhizoma, Chrysanthemi Flos / 中国中药杂志

<p><b>OBJECTIVE</b>To investigate the state and distribution of Pb, Cd, Hg, As, Cu in Rhei Radix et Rhizoma and Chrysanthemi Flos.</p><p><b>METHOD</b>The samples were prepared by modified Tessier sequential extraction; The elements of Cu, Pb, and Cd in the samples were analyzed by atomic absorption spectrometry (AAS), while Hg, and As were analyzed by atomic fluorescence (AFS).</p><p><b>RESULT</b>Cu,Pb,Cd,Hg,As in Chrysanthemi Flos were 12.806, 10.478, 0.436, 0.231, 1.531 mg x kg(-1), respectively. Cu, Pb, Hg in Chrysanthemi Flos mainly existed in residual and organic states; Cd was priority to ion exchange state; the residual state was the main form of As, and ion exchange state and water soluble state also had a large proportion. Cu, Pb, Cd, Hg, As in Rhei Radix et Rhizoma were 10.530, 4.926, 0.478, 0.260, 0.750 mg x kg(-1), respectively. Cu, Pb and Hg of residual state were the highest ratio; Cd and As mainly existed in ion exchange state.</p><p><b>CONCLUSION</b>The experiment results showed that sequential extraction can be applied in speciation analysis of the harmful elements of traditional Chinese medicine. The method can speciate the state and distribution of harmful elements and provide the information of harmful elements. It will provide reference to the production of Chinese traditional patent medicine and herb extracts, processing of medicine herbs, the development of new drugs and safety evaluation of traditional Chinese medicine.</p>

Fingerprints of active principles in Cistanche tubulosa from different regions / 中成药

AIM: A HPLC fingerprint has been established of six active principles in Cistanche tubulosa in nine different regions in the Xinjian Uygur Automomous Region in China. METHODS: Chromatographic condition included a symmetry C_(18)(4.6 mm?250 mm,5 ?m) column and the gradient elution was adopted with ratio of acetonitrile-0.095% H_3PO_4 from 8()∶92 to 12()∶88 in 0-18 min and 12()∶18 to 19()∶81 in 18-40 min,19()∶81 maintain for 50 min.The detection wavelength was at 330 nm and the flow rate was 1.0 mL/min and detection time was 90 min. RESULTS: Eleven common characteristic peaks,including salidroside, bartsioside,echinacoside,cistanbuloside A,tabuloside A and acteoside were taken as fingerprint peaks the precision and the accuracy were in accordance with the chromatographic requirement. CONCLUSION: The method is stable,reliable,precision and provides a scientific basis for the quality standard for Cistanche tubulosa.

HPLC fingerprint chromatogram of Radix Arnebiae / 中成药

AIM: To establish the HPLC fingprint spectrum of Radix Arnebiae as identification. METHODS: HPLC fingerprint spectrum of Radix Arnebiae collected from the seven production places and that of Radix Lithospermi from three production places were evaluated based on shikonin content. RESULTS: The major features of HPLC fingerprint of the seven production places were approximately similar to control sample there was no significant difference among the contents but Radix Lithospermi from three production places were not the same. CONCLUSION: The HPLC fingerprint spectrum of Radix Arnebiae can be used as an identification.It may provide the basis for quality control of Radix Arnebiae.