Reaserch on extraction technology of polysaccharides from Acanthopanax senticosus waste residue by response surface methodology / 中草药

Objective To study and optimize the extraction technology of polysaccharides from Acanthopanax senticosus (AS) waste residue by response surface methodology (RSM). Methods Phenol-sulfuric acid method was used to quantitatively analyze polysaccharides from AS waste residue. Based on single factor, the extraction process factors of polysaccharides from AS waste residue were optimized by RSM. Results The best conditions for the response surface optimization were as follows: extraction temperature was 80 ℃, extracting time was 1.5 h, and liquid-material ratio was 21. The extraction rate of polysaccharide was 10.14% under the optimal conditions. Conclusion The extraction conditions of the polysaccharide from AS are optimized by response surface method. This data can provide a theoretical basis for the further exploitation and utilization of the subsequent waste residue of AS.

The changes of content and proportion of main components in glycyrrhiza ura-lensis Fisch under different processing and extraction conditions / 药学实践杂志

Objective To explore the licorice herbs principal component isomer content and percentage change in differ-ent processing and extracting conditions.Methods RP-HPLC method were used with 18 beta glycyrrhizic acid(18β-Gly)and 18 alpha glycyrrhizic acid(18α-Gly)as the basis of evaluation,determination of main components and impurities of licorice pieces,effects of processing temperature and processing time on licorice pieces and standard mixture of principal components andimpuritiesthecontentof18-Glyand18α-Glyand18β-Glyratiochange.Results Duringtheprocessof Glycyrrhizauralen-sis Fisch,increasing the processing temperature and prolonging the processing time caused the decomposition of 18β-Gly and 18α-Gly,which was the main component isomer of licorice root,and the total content of licorice root was slightly decreased. During the processing,the main components did not change the conformation,and had no effect on the proportion of the two. The content of 18β-Gly and 18α-Gly content of glycyrrhizic acid in Glycyrrhiza uralensis Fisch after processing were lower than those before processing in 18β-Gly and 18α-Gly.Conclusion The processing time of licorice pieces could not be too long,the temperature could not be too high,so as to avoid excessive loss of active ingredients.Baking conditions suitable for baking tem-perature was 65 ℃,time was 1-2 h.The processing condition was convenient,the time and the temperature were controllable, and the sample quality was stable.

Investigate optimum conditions and determinate changes of β-glucosidase activity in Scrophularia root under different drying conditions / 中国中药杂志

To explore the optimum conditions of β-glucosidase activity in Scrophularia root by using pNPG method. The extraction conditions and reaction conditions (such as extraction liquid type, reaction system, reaction time, temperature, and substrate concentration) were screened by using monofactorial experiment and homogeneous design. Then the changes of β-glucosidase activity in Scrophularia root were detected at the drying temperature of 40-100 ℃. The results showed that citric acid phosphate buffer had better extraction effect, and the maximum absorbance produced by enzymatic reaction was present at 50 ℃ environment after reaction for 30 min. Homogeneous design experiment determined that the optimal conditions were as follows: optimal extraction liquid pH 7.0; enzymatic reaction system pH 6.0; substrate concentration 20 mmol•L⁻¹. The change of enzyme activity was affected by drying temperature and water loss rate. In the drying temperature of 60-100 ℃, the enzyme activity was reduced rapidly with the increase in water loss rate, while the activity was seen even with 0% of water at 40 and 50 ℃. This study has laid the theoretical foundation for research of hydrolysis mechanism of iridoid glycosides and optimum drying process.

Optimization of Extraction Condition of Hesperidin in Citrus unshiu Peels using Response Surface Methodology

Hesperidin, which is the most abundant flavonoid of Citrus unshiu (Rutaceae), has been reported to possess diverse activities and widely used as functional foods and cosmetics. For the development of functional products, extraction procedure is indispensable. Extraction conditions affect the composition of extract as well as its biological activity. Therefore, we tried to optimize extraction conditions such as extraction solvent, extraction time and extraction temperature for maximum yield of hesperidin using response surface methodology with threelevel-three-factor Box-Behnken design (BBD). Regression analysis showed a good fit of the experimental data and the optimal condition was obtained as ethanol concentration, 59.0%; temperature 71.5degrees C and extraction time, 12.4 h. The hesperidin yield under the optimal condition was found to be 287.8 microg per 5 mg extract, which was well matched with the predicted value of 290.5 microg. These results provides optimized extraction condition for hesperidin and might be useful for the development of hesperidin as functional products like health supplements, cosmetics and medicinal products.

Evaluation of the Extraction Method for the Cytotoxicity Testing of Latex Gloves

In this study, the cytotoxicity of medical latex gloves to cultured L-929 cells was determined using various extraction conditions. According to the extraction time and temperature, three types of extraction conditions were used: 1) 24 h at 37 degrees C; 2) 72 h at 37 degrees C; 3) 72 h at 50 degrees C. Also, four different extraction vehicles were used, namely, distilled water (DW), 9 g/l sodium chloride (saline) in DW, and culture media with or without serum. Under the above-mentioned conditions, the samples were extracted and then 2-fold serially diluted in the concentration range 3.13 - 50%. When extracted with either DW or saline for 24 h or 72 h at 37 degrees C, only 50% diluted samples showed distinct cytotoxicity to L-929 cells. Moreover, no cytotoxic potentials were observed when gloves were extracted with DW or saline at 50 degrees C for 72 h. Cytotoxicity was markedly greater when gloves were extracted with culture medium, irrespective of the presence of serum in the medium. These results suggest that optimal extraction conditions should be established for the cytotoxicity evaluations of biomaterials and medical devices.

Study on optimum technology for extracting total flavonoids from Acanthus illicifolius by orthogonal design / 中国海洋药物

Objective To study the optimum conditions for extracting total flavonoids from Acanthus illicifolius through the two extraction processes.Methods An orthogonal test of L_9 (3~4)was designed to select optimum operation conditions for extracting total flavonoids from Acanthus illicifolius through Soxhelt and ultrasonic extraction process.According to the output of total flavonoids under the different extraction conditions,which were selected as ethanol contents,extraction temperatures and extraction time for Soxhelt extraction process, and extraction time,ethanol contents and ratio of liquid to material for ultrasonic extraction process.Results The optimum conditions were established as follows:ethanol content 60%, extraction temperature 85℃and extraction time 2.5h in Soxhlet extraction process;Ethanol content 50%,extraction time 50min,ratio of liquid to material 40:1 in ultrasonic extraction process.The extraction temperature was the main factor on the Soxhlet extraction process, and the ethanol content on the ultrasonic extraction process.Conclusion The technology of ultrasonic extraction is better than that of Soxhlet extraction to extract the total flavonoids from Acanthus illicifolius.The max output of total flavonoid from Acanthus illicifolius can reach to 3.82%.