[Application of Thermogravimetric-Differential Scanning Calorimetry(TG-DSC)in Quality Control of Limonitum].

Objective: To control the quality of Limonitum by investigating the thermoanalysis curves. Methods: Analysis Limonitum samples from different origins by Thermogravimetric-Differential Scanning Calorimetry( TG-DSC),and the processed samples and fake samples were analyzed to compare the difference of them at the same time. Results: Thermal analysis curves showed that most of Limonitum samples had three weight loss steps in 30 ~ 1 000 ℃,and the process of dehydration weight loss of goethite was obviously in about309 ℃. There was a positive correlation between the weight loss rate of the second step and the content of iron. Conclusion: The Thermal analysis method can provide reference to the identification and quality control of Limonitum.

Application of Fourier Transform Infrared Spectra (FTIR) Fingerprint in the Quality Control of Mineral Chinese Medicine Limonitum.

In the present paper, the fingerprint of Limonitum (a mineral Chinese medicine) by FTIR was established, and the spectrograms among crude samples, processed one and the adulterant sample were compared. Eighteen batches of Limonitum samples from different production areas were analyzed and the angle cosine value of transmittance (%) of common peaks was calculated to get the similarity of the FTIR fingerprints. The result showed that the similarities and the coefficients of the samples were all more than 0.90. The processed samples revealed significant differences compared with the crude one. This study analyzed the composition characteristics of Limonitum in FTIR fingerprint, and it was simple and fast to distinguish the crude, processed and the counterfeit samples. The FTIR fingerprints provide a new method for evaluating the quality of Limonitum.

[Effect of inorganic fertilizer on quality of Panax ginseng].

OBJECTIVE: To study the effect of inorganic fertilizer on the heavy metal and harmful element residues, the content of total ginsenoside and yield of ginseng. METHODS: Graphite furnace atomic absorption spectrometry was used for determinating the content of lead, cadmium, copper, nickel and chrome atomic fluorescence spectrometry for arsenic, antimony and mercury. The content of ginsenoside Rg1, Re, Rb1 was determined by HPLC. RESULTS: Compared with the blank ginseng, the ginseng in the normal fertilization did not significantly increase the content of heavy metals. The heavy metals and harmful elements of ginseng met the requirement of Chp 2010. CONCLUSION: Appropriate fertilizer could help the growth of ginseng. Compared with the production, it should focus more on the content of total ginsenoside.

[Study of determination method for heavy metals and harmful elements residues in four traditional Chinese medicine injections].

Methods for determination of heavy metals and harmful residues in traditional Chinese medicine injection were established. Graphite furnace atomic absorption spectrometry was used for determination of lead, cadmium and copper, atomic fluorescence spectrometry for arsenic and mercury. The preprocessing method was optimized. The average recoveries of 5 elements were between 91% and 112% while the precisions were less than 2%. The determination limit of lead, cadmium, copper, arsenic and mercury were 0.28, 0.014, 0.49, 0.19, 0.061 microg x L(-1), respectively. The proposed method was simple, sensitive, accurate and reliable, and could be used widely.

[Study on the detecting methods of the imported materia medica--olibanum].

OBJECTIVE: To analyse the chemical components of the essential oil of Gum olibanum somalilnds and Gum olibanum Ethiopia, and to set up determination methods of their main components. METHOD: Two kinds of essential oil are identified by GC-MS, and assayed by Gas chromatography, using SE-54 as the packing material (column 2.1 m x 3.2 mm), with column temperature starting from 80 degrees C, holding for 1 min, and then rising at the rate of 15 degrees C per minute to 170 degrees C. RESULT: 40 kinds of chemical compounds in the essential oil of Gum olibanum somalilnds and 22 kinds of those of Gum olibanum Ethiopia were identified by GC-MS, the main component in the essential oil of Gum olibanum somalilnds being alpha-pinene, and the main one of Gum olibanum Ethiopia being Octyl acetate 17 batches of samples were determined with the linear range of alpha-pinene being 0-10.80 micrograms, the correlation coefficient being 0.9995, the recovery being 98.16%, RSD being 1.83%; the linear range of Octyl acetate being 0-10.32 micrograms, the correlation coefficient being 0.9996, the recovery being 99.56%, and RSD being 1.36%. CONCLUSION: This study can be used for the setting up of the specification of Olibanum.

Rapid discrimination of Chinese red ginseng and Korean ginseng using an electronic nose coupled with chemometrics.

Red ginseng is a precious and widely used traditional Chinese medicine. At present, Chinese red ginseng and Korean ginseng are both commonly found on the market. To rapidly and nondestructively discriminate between Chinese red ginseng and Korean ginseng, an electronic nose coupled with chemometrics was developed. Different red ginseng samples, including Chinese red ginseng (n=30) and Korean ginseng (South Korean red ginseng and North Korean red ginseng n=26), were collected. The metal oxide sensors on an electronic nose were used to measure the red ginseng samples. Multivariate statistical analyses, including principal component analysis (PCA), discriminant factorial analysis (DFA) and soft independent modeling of class analogy (SIMCA), were employed. All of the samples were analyzed by PCA. Most of the samples were used to set up DFA and SIMCA models, and then the remaining samples (Nos. 9, 10, 17, 18, 29, 30, 34, 43, 44, 50, and 51) were projected onto the DFA and SIMCA models in the form of black dots to validate the models. The results indicated that Chinese red ginseng and Korean ginseng were successfully discriminated using the electronic nose coupled with PCA, DFA and SIMCA. The checking scores of the DFA and SIMCA models were 100. The samples projected onto the DFA and SIMCA models were all correctly discriminated. The DFA and SIMCA models were robust. Electronic nose technology is a rapid, accurate, sensitive and nondestructive method to discriminate between Chinese red ginseng and Korean ginseng.