Résumé
Objective:To optimize the water extraction and alcohol precipitation technology of Xuanfei Zhike granule .Methods:Orthogonal test was used to investigate the effects of adding water , decocting time and boiling time on the water extraction , and the effects of relative density , alcohol precipitation concentration and alcohol precipitation time on the alcohol precipitation technology by taking comprehensive score including the amount of hesperidin , the amount of tectoridin and the yield of dry cream as the indices .Re-sults:The preferred water extraction technology was as follows: added 10 times water and extracted 1.5 h firstly, and then added 8 times water and extracted twice with 0.5 h for each.The preferred alcohol precipitation technology was as follows:concentrated the wa-ter extraction to a relative density of 1.05 (measured at 60℃), slowly added 95%ethanol to 80%alcohol solution and stored 18 h at low temperature .Conclusion:The optimal water extraction and alcohol precipitation technology is stable and feasible , which can pro-vide reference for the standardized production of Xuanfei Zhike granule .
Résumé
OBJECTIVE:To study the difference of dissolution performance of chemical component and anticonvulsant effect of Bombyx mori decoction and powder taken with water,and to provide reference for the selection of application forms of B. mori. METHODS:The yield of dry extract was determined for decoction and powder biomimetic gastric juice of B. mori. HPLC method was used to detect the content of ammonium oxalate in decoction and powder biomimetic gastric juice of B. mori. The content of protein in decoction and powder biomimetic gastric juice of B. mori was determined with bicinchoninic acid(BCA)method. Mice was divided into normal group(1%Sodium carboxymethylcellulose solution),model group(1%Sodium carboxymethylcellulose solution),positive group (phenytoin,2 mg/kg) and B. mori decoction and powder suspensions high-dose,medium-dose and low-dose groups(0.75,1.5,3 g/kg by crude drug)according to random number table,with 20 mice in each group. After 60 min of intragastric administration,electric stimulation was conducted,and the rate of convulsion in mice was recorded. RESULTS:The yields of dry extract were 22.08% and 26.40% in decoction and powder gastric juice of B. mori (P<0.05);the contents of ammonium oxalate were 11.22% and 16.83% (P<0.05),and the contents of protein was 3.39% and 4.92% (P<0.01). Compared with normal group,convulsion rate of mice was increased significantly in model group (P<0.01);compared with model group,convulsion rates of mice were decreased significantly in administration groups (P<0.05 or P<0.01),and the convulsion rate of mice in B. mori powder suspensions group was lower than decoction group. CONCLUSIONS:The dissolution performance of the chemical component from gastric juice of B. mori powder is better than that of decoction, and the anticonvulsant effect of B. mori powder is better than decoction.
Résumé
Objective:To optimize the alcohol precipitation technology of Qingmai granules. Methods:The relative density of liq-uor,the concentration and time of alcohol precipitation were chosen as the factors,the yield of dry extract and content of diosgenin as the indices,the alcohol precipitation technology was optimized by orthogonal test. Results:The optimal alcohol precipitation technology was as follows:the extraction liquid was concentrated till the relative density was 1. 13-1. 18 g·ml-1 ,ethanol was added until the concen-tration was up to 60% with the alcohol precipitation time of 24h. Conclusion:The optimized technology is stable,reasonable and feasi-ble,which can provide experimental basis for the clinical application of Qingmai granules.