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OBJECTIVE Optimizing the water extraction technology of Xiangqin jiere granules. METHODS The orthogonal test of 3 factors and 3 levels was designed, and comprehensive scoring was conducted for the above indexes by using G1-entropy weight to obtain the optimized water extraction technology of Xiangqin jiere granules with water addition ratio, extraction time and extraction times as factors, using the contents of forsythoside A, baicalin, phillyrin, oroxylin A-7-O-β-D-glycoside, wogonoside, baicalein and wogonin, and extraction rate as evaluation indexes. BP neural network modeling was used to optimize the network model and water extraction process using the results of 9 groups of orthogonal tests as test and training data, the water addition multiple, decocting time and extraction times as input nodes, and the comprehensive score as output nodes. Then the two analysis methods were compared by verification test to find the best water extraction process parameters. RESULTS The water extraction technology optimized by the orthogonal test was 8-fold water, extracting 3 times, extracting for 1 h each time. Comprehensive score was 96.84 (RSD=0.90%). The optimal water extraction technology obtained by BP neural network modeling included 12-fold water, extracting 4 times, extracting for 0.5 h each time. The comprehensive score was 92.72 (RSD=0.77%), which was slightly lower than that of the orthogonal test. CONCLUSIONS The water extraction technology of Xiangqin jiere granules is optimized successfully in the study, which includes adding 8-fold water, extracting 3 times, and extracting for 1 hour each time.
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OBJECTIVE To optimize extraction technology of couplet medicinals of Astragalus membranaceus-Puerariae lobatae. METHODS With contents of puerarin,daidzin,calycosin-7-O-β-D-glucopyranoside,daidzein,calycosin and formononetin and the yield of dry extract as index,the analytic hierarchy method was used to determine the weight coefficient of each index and calculate the comprehensive score. The effects of solid-liquid ratio, extraction times and extraction time on the comprehensive score were investigated by single factor test. The level of each factor was determined. By multi-index comprehensive scoring method, using comprehensive scores of above 7 indexes as indexes,the extraction technology of couplet medicinals of A. membranaceus-P. lobata was optimized by orthogonal experiment,and the validation tests were conducted. RESULTS The weight coefficient for the contents of puerarin,daidzin,calycosin-7-O-β-D-glucopyranoside,daidzein,calycosin and formononetin and the yield of dry extract were respectively 0.304 7,0.065 2,0.185 8,0.185 8,0.107 8,0.107 8 and 0.042 7. The optimal extraction technology was determined as follows: solid-liquid of 1∶8(g/mL),extracting 3 times and for 1 h each time. RSD of each evaluation index in the validation test results was lower than 3.00% (n=3). CONCLUSIONS The optimized extraction technology for A. membranaceus-P. lobata is stable and feasible.
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Objective To optimize extraction technology for Sihuang Shaoshang ointment by orthogonal test,and establish the HPLC fingerprint of Sihuang Shaoshang ointment to provide references for the quality evaluation of the preparation.Methods Taking Sihuang Shaoshang ointment as the model drug,the fingerprints were established by HPLC method,the common peak areas were analyzed by principal component analysis,and the total factor scores were used as the evaluation index.The technological parameters such as extraction times,extraction time and liquid-solid ratio were optimized by orthogonal test,and the optimal extraction process parameters were screened out.Results The common mode of fingerprint was set up with 12 common peaks and the two principle components with the accumulative contribution rate of 84.751% extracted by principal component analysis were screened out to calculate the comprehensive scores of 9 samples.The optimal extraction process was as follows:10-fold amount of water,extracting 3 times,and extracting 2 h for each time.Conclusion The established method is simple and effective,which can provide a reference for the extraction process optimization of Sihuang Shaoshang ointment.
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OBJECTIVE To optimize the extraction process of polysaccharides from Dendrobium officinale, and preliminarily study its effect on acute lung injury (ALI) in mice. METHODS Using D. officinale as raw material, the polysaccharides were extracted from D. officinale by ultrasonic-assisted hot water immersion. Using the extraction rate of D. officinale polysaccharides as response value, the single-factor experiments and Box-Behnken response surface method were used to optimize the ratio of material to liquid, extraction time and extraction temperature. ALI mice were induced by lipopolysaccharide. Using prednisone acetate (5 mg/kg) as the positive control, the effects on the mass ratio of wet and dry lung and pathological changes of lung tissue (HE staining and Masson staining) of low-dose, medium-dose and high-dose D. officinale polysaccharides (50,100,200 mg/kg) were investigated. RESULTS The optimal extraction technology of D. officinale polysaccharides was as follows: the ratio of material to liquid was 1∶25 (g/mL), the extracting time was 1 h, and the extracting temperature was 58 ℃ . Under these conditions, the average extraction rate of D. officinale polysaccharides was 37.75% (RSD=1.12%,n=3), the relative error of which with predicted value (38.63%) was 2.28%. Compared with the model group, the ratios of wet and dry lung in the positive control group and D. officinale polysaccharides groups were all decreased significantly (P<0.05 or P<0.01), and the pathological changes in lung tissue (severe destruction of alveolar structure, significant widening of alveolar septa, extensive infiltration of inflammatory cells and proliferation of fibroblasts) were alleviated to varying degrees. CONCLUSIONS The optimal extraction process of D. officinale polysaccharides is feasible; the obtained polysaccharide extract has a certain improvement effect on ALI in mice.
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OBJECTIVE To optimize the extraction technology for the raw drugs of Sanse powder gel paste. METHODS SD rats were divided into blank group, model group, traditional technology group, water extraction group and ethanol extraction group, with 5 rats in each group. Anterior cruciate ligament transection was used to construct knee osteoarthritis model, and the pharmacodynamic effects of different extraction methods on arthritic rats were investigated. Analgesic experiments were conducted using cold and hot pain thresholds and pain mediators calcitonin gene-related peptide (CGRP), cyclooxygenase-2 (COX-2), substance P (SP), and prostaglandin E2 (PGE2) contents as indicators. HE staining was performed on the synovial membrane of rats to observe the degree of synovial cell proliferation, inflammatory infiltration and vascular invasion, and anti-inflammatory experiments were conducted using protein and mRNA expressions of interleukin-1β (IL-1β), tumor necrosis factor-α (TNF-α) and IL-6 as indicators. The analgesic and anti-inflammatory effects were compared among those groups. In the orthogonal test, ethanol dosage, extraction time and extraction times were used as evaluation factors, and the contents of casticin, strychnine and toxiferine were taken as evaluation indicators; comprehensive score was calculated. The validation experiments were carried out after optimizing the extraction technology of the raw drugs of Sanse powder gel paste. RESULTS Compared with the model group, the cold and heat pain thresholds of drug administration groups (except for the traditional technology group) were all increased significantly (P<0.05), while the contents of pain (No.Y2021rc02) mediators CGRP, COX-2, SP and PGE2 were all decreased significantly (P<0.05). HE staining showed that inflammatory cell infiltration, fibrosis and collagen deposition were 炎。E-mail:liuzixiu3221@126.com decreased in the administration groups; a small amount of capillary proliferation could be found; the protein and mRNA expressions of inflammatory factors such as IL-1β, IL-6 and TNF-α were decreased significantly in synovial tissue of rats in administration groups (P<0.05). Compared with the traditional technology group, most indicators of the ethanol extraction group were significantly reduced (P<0.05), and only heat pain threshold and mRNA expression of IL-6 in rats were decreased significantly in the water extraction group (P<0.05). The optimal extraction technology of the raw drugs of Sanse powder gel paste included suitable dose of Sanse powder, 8-fold 55% ethanol, heating reflux extraction for 90 minutes, extracting twice. The results of 3 times of verification experiments showed that the average contents of casticin, strychnine and toxiferine were 0.007%, 0.092%, and 0.214%, respectively; RSD were all less than 5%. CONCLUSIONS The optimized extraction technology for the raw drugs of Sanse powder gel paste is stable and feasible, which can improve the efficacy of the preparation.
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OBJECTIVE To optimize the extraction technology of modified Tabusen- 2(MT-2),and to investigate inhibitory effects of the extract obtained by the optimal technology on osteoclast differentiation. METHODS The index components of MT- 2 process optimization were selected by using network pharmacology. Based on single factor tests ,the extraction technology of MT- 2 was optimized by Box-Behnken design-response surface methodology according to the comprehensive score of contents of above index components ,and then validated. RAW 264.7 cells were induced by receptor activator of nuclear factor-κB ligand(100 ng/mL) to prepare osteoclast differentiation model. Inhibitory effects of MT- 2 extract(18.6,37.2,74.4 ng/mL)obtained by the optimal technology on osteoclast differentiation were investigated. RESULTS The index components screened by network pharmacology included chlorogenic acid ,terpineol diglucoside ,isochlorogenic acid A ,1,5-dicaffeoylquinic acid ,hydroxysafflower yellow A , ginsenoside Rg 1 and ginsenoside Rb 1. The optimal extraction technology of MT- 2 was ethanol volume fraction of 60% ,the solid-liquid ratio of 1 ∶ 14(g/mL),extraction time of 94 min and extraction times of twice. The average comprehensive score obtained by the three validation experiments was 95.50,and the relative error with the predicted value (95.75)was -0.26%. Compared with osteoclastic differentiation model cells ,the cells treated with MT- 2 extract prepared by the optimal technology were mostly mononuclear round cells ,and the number of osteoclasts decreased significantly (P<0.05),its inhibitory effects tended to strengthen with the increase of drug concentration. CONCLUSIONS The optimal extraction technology of MT- 2 is stable and feasible. Obtained extract can inhibit osteoclast differentiation.
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OBJECTIVE To optimize the extraction technology of volatile components from Wuyao decoction. METHODS On the basis of single factor investigation ,the extraction technology of volatile components from Wuyao decoction was optimized and validated by Box-Behnken design-response surface technology using the contents of bomyl acetate ,cyperotundone,α-cyperone, ligustilide and dehydrocostuslactone , extraction rate of volatile oil as indexes , with extraction time , soaking time and liquid-material ratio as factors. On this basis ,the extraction state of the decoction was quantified. RESULTS The optimal extraction technology was as followed :the ratio of liquid -material was 13∶1(mL/g),soaking time was 0.5 h,and the extraction time was 6 h in the boiling state. The comprehensive scores of the three validation experiments were 0.948 7,0.948 4 and 0.948 6 respectively (RSD=0.02%,n=3),and the deviation from the predicted value (0.947 9)was no more than 1%. The boiling state of the decoction in 180 ℃ oil bath was taken as the sudden boiling state. CONCLUSIONS The optimized extraction technology is stable and feasible.
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OBJECTIVE To optimize the e xtraction technology of Guizhi shaoyao zhimu decoction (GSZD). METHODS The contents of 9 components in GSZD were determined by HPLC ,such as ephedrine hydrochloride ,pseudoephedrine hydrochloride , mangiferin,paeoniflorin,liquiritin,5-O-methylvisammioside,glycyrrhizic acid ,cinnamic acid ,6-gingerol. On the basis of single factor experiment ,taking material-liquid ratio ,extraction times and extraction time as inspection factors ,taking the contents of above 9 components and the yield of dry extract as evaluation indicators ,the analytic hierarchy process and entropy weight method were used to determine the composite weight of each index and calculate the comprehensive score ;the extraction technology parameters of GSZD were optimized by Box-Behnken response surface method ,and the validation tests were conducted. RESULTS The composite weight of the contents of ephedrine hydrochloride ,pseudoephedrine hydrochloride ,mangiferin,paeoniflorin, glycyrrhizin,5-O-methylvisa- midol ,glycyrrhizinate,cinnamic acid ,6-gingerol and the yield of dry extract were respectively 0.12,0.10,0.05,0.12,0.14,0.06,0.13,0.15,0.10,0.03. The optimal extraction technology of GSZD is that the ratio of material to liquid is 1 ∶ 14(g/mL),extraction is 2 times,and the extraction time is 3.0 h;average comprehensive score of the 3 verification tests was 95.879,and RSD was 0.50%(n=3),the deviation from the predicted comprehensive score (94.328)was 1.64%. CONCLUSIONS In this study ,the optimal extraction technology of GSZD is determined.
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OBJECTIVE:To optimize the extraction technology of Zhideke granules. ME THODS:The extraction technology (water extraction ,alcohol extraction ,water extraction and ethanol precipitation )of Zhideke granules was initially screened by ammonia-induced cough experiment and xylene-induced ear swelling experiment in mice. Based on its preparation route ,the immersion time of medicinal materials containing volatile oil was investigated with water absorption as index firstly. The single factor test was adopted to investigate the amount of water added and the extraction time taking the volatile oil yield as index to optimize the extraction technology of medicinal materials containing volatile oil. Taking the contents of irisflorentin and total flavonoids as indicators ,on the basis of single factor investigation ,orthogonal test was adopted to examine the influence of three factors including the amount of water added ,extraction time and extraction frequency ,so as to optimize the water extraction technology of Zhideke granules and the validation tests were conducted. RESULTS :The results of pharmacodynamics experiment showed that the cough latency of mice in water extract low-dose and high-dose groups (6.34,12.68 g/kg,by crude drug )and water-extraction alcohol-precipitation extract high-dose group (12.68 g/kg,by crude drug )were significantly longer than those inmodel group ,and the number of cough within 2 minutes was significantly reduced (P<0.05 or P<0.01). Compared with model group , the ear swelling of mice in water extract low-dose and high-dose groups (6.34,12.68 g/kg,by crude drug),ethanol extract high-dose group (12.68 g/kg,by crude drug) and water-extraction alcohol-precipitation extract hig dose group (12.68 g/kg,by crude drug ) were decreased significantly (P<0.05 or P<0.01). The swelling inhibition rates were 42.26%,55.08%,33.49%,51.56%,39.57% and 44.36% in low-dose and high-dose groups of water extract ,alcohol extract , water-extraction and alcohol-precipitation extract respectively ,indicating that the water extract had better antitussive and anti-inflammatory effects. The optimal extraction technology of volatile oil was adding 5-fold water ,soaking for 30 minutes,and extracting for 3 hours. The optimal water extraction technology was adding 12-fold water ,extracting for 3 times after soaked for 50 min,lasting for 1 h each time. Results of 3 times of validation tests showed that average content of irisflorentin in the extract obtained by optimal technology was 76.47 μg/g(RSD= 2.15%,n=3)and the average content of total flavonoids was 92.45 mg/g(RSD=0.48%,n=3). CONCLUSIONS :The optimal extraction technology of Zhideke granules is stable and feasible.
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OBJECTIVE:To opt imize the extraction technology of phenolic acid from Amomum tsaoko . METHODS :The extraction technology of phenolic acid from A. tsaoko was optimized by using Box-Behnken design-response surface methodology with ethanol volume fraction ,liquid-solid ratio and extraction time as factors ,using the total contents of protocatechuic acid and vanillic acid as response value. The optimizd extraction technology was vlidated. RESULTS :The optimal extraction technology was as follows :ethanol volume fraction 65%,liquid-solid ratio 4∶1(mL/g),extraction time 2.5 h. After 3 times of validation tests , average total content of protocatechuic acid and vanillic acid were 12.32 mg/g(RSD=0.26 %,n=3),average relative error of which with predicted value (12.63 mg/g)was 2.45%. CONCLUSIONS :The optimal technology is stable and feasible .
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To optimize the ethanol extraction technology parameters of Fengyin Decoction by orthogonal experiment combined with beetle antennae search(BAS)-genetic algorithm(GA)-back propagation neural network(BPNN). Based on single factor investigation, the extraction temperature, ethanol volume, extraction time, and ethanol concentration were used as orthogonal experiment factors, and entropy weight method was used to calculate the comprehensive scores of aloe-emodin, glycyrrhizic acid ammonium salt, rhein, emodin, chrysophanol, physcion, cinnamaldehyde, 6-gingerol, extraction ratio and fingerprint similarity. BAS-BPNN model was established, and then, GA was used to predict the optimal extraction process. The results showed that BAS-BPNN was optimized to obtain the optimal ethanol extraction process of Fengyin Decoction as follows: extraction temperature of 87 ℃, adding 9 times of 75 % ethanol, and extracting for 47 minutes, with a comprehensive score of 1.052 9. Meanwhile, the optimal process parameters obtained by orthogonal design were as follows: the extraction temperature of 80 ℃, adding 10 times of 75% ethanol, extracting for 30 minutes, with a comprehensive score of 1.003 7. The comprehensive score of the process obtained from the BAS-BPNN model was slightly better than that from the orthogonal test, indicating that the optimized process from BAS-BPNN model was more ideal, so it was finally determined as the best extraction process for Fengyin Decoction. The process of Fengyin Decoction obtained from BAS-GA-BPNN has high extraction efficiency and good stability, which provides reference for the subsequent development and quality control.
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Medicamentos Herbarios Chinos , Entropía , Etanol , Redes Neurales de la Computación , Control de CalidadRESUMEN
Objective: The extraction process optimization method of chemometrics combined with information entropy weight was established and applied to the water extraction process optimization of Banxia Baizhu Tianma Decoction (BBTD), in order to fully ensure the effectiveness and quality consistency of classical prescription. Methods: Taking BBTD as the model drug, the fingerprint was established by HPLC method. The common peak area was analyzed by principal component analysis (PCA), the total factor score of PCA, the similarity of fingerprint and the yield of dry paste were used as evaluation indexes. L9(34) orthogonal design was used to investigate the effects of adding water, soaking time and boiling time on the extraction effect, and the Objective: weight of each index was determined by information entropy weighting method. The technological parameters of water extraction were optimized. Results: Twenty-six common peaks and seven compounds were identified by the similarity evaluation system of chromatographic fingerprints of traditional Chinese medicine. According to the results of comprehensive score, the optimum extraction process of the preparation was determined to be 12 times the amount of water, decoction twice, 1 hour each time. The average comprehensive score of the three batches of verification was 0.418 0 with RSD of 3.32%. Conclusion: The optimized process has high extraction rate, good stability and repeatability, and is suitable for the industrial production of BBTD.
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OBJECTIVE: To establish the method for content determination of ligustilide and to optimize the extraction technology of volatile oil and inclusion technology in Quhan zhufeng granules. METHODS: HPLC method was adopted. The determination was performed on Waters C18 column with mobile phase consisted of methanol-water (70 ∶ 30, V/V) at the flow rate of 1 mL/min. The detection wavelength was set at 327 nm, and the column temperature was 30 ℃. The sample size was 10 μL. Using yield of volatile oil and the content of ligustilide as index, with soaking time, the amount of adding water and extraction time as factors, the extraction technology was optimized by orthogonal test. Using inclusion rate, the yield of inclusion compound and yield of volatile oil as index, with ratio of volatile oil to β-cyclodextrin, inclusion temperature and inclusion time as factors, the inclusion technology of volatile oil was optimized by orthogonal test. RESULTS: The linear range of ligustilide was 0.4-4 μg(r=0.999 9); RSDs of precision, stability and reproducibility tests were all lower than 2% (n=6). The recoveries were 96.75%-102.03%(RSD=2.06%,n=6). The optimal extraction technology of volatile oil included 10-fold water (mL/g), soaking for 15 min, extracting for 8 h. Average yield of volatile oil was 0.310 7%, and average content of ligustilide was 0.418 0 mg/g. The optimal inclusion technology of volatile oil included ratio of β-cyclodextrin and volatile oil was 1 ∶ 8 (mL/g); inclusion temperature was 50 ℃; inclusion time was 3 h. Average inclusion rate was 69.43%, and the yield of inclusion compound was 58.89%; the yield of volatile oil was 14.15%. CONCLUSIONS: Established determination method is simple, accurate and stable. The optimal extraction technology of volatile oil and inclusion technology are stable and feasible.
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OBJECTIVE: To optimize the extraction technology of the flavonoids from Glycyrrhiza uralensis. METHODS: Using total contents of four flavonoids, liquiritinapioside, glycyrrhizin, isoliquiritin apioside and formononetin as indexes, types and volume fractions of extraction solvents (water, ethanol), volume of addition and extraction time as factors, based on single factor experiment, Box-Behnken design-response surface method was used to optimize the extraction technology of flavonoids from G. uralensis. Validation test was also conducted. RESULTS: The optimal extraction technology was 50 mL 50% ethanol as extraction solvent, 0.200 g G. uralensis, ultrasonic extraction for 50 min. In validation test, the extraction amounts of liquiritinapioside, glycyrrhizin, isoliquiritin apioside and formononetin were 10.733 0, 27.784 9, 3.441 9, 0.429 1 mg/g, respectively (all RSDs<3.0%, n=3). The average total extraction amount of four flavonoids was obtained was 42.388 9 mg/g, the relative error of which to predicted value (42.173 2 mg/g) was 0.52% (n=3). CONCLUSIONS: The optimized extraction technology is simple, rapid and stable, and can be used for the extraction of flavonoids from G. uralensis.
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OBJECTIVE: To optimize the extraction technology of osthole from the pine needles of Cedrus deodara. METHODS: HPLC method was adopted to determine the content of osthole. Based on single factor test, ethanol volume fraction, extraction time and material-solvent ratio were selected as influential factors, and the content of osthole was selected as response value. Box-Behnken design-response surface methodology was used to optimize the extraction technology of osthole in pine needles of C. deodara. Validation test was conducted. RESULTS: The optimal extraction technology was as follows as ethanol volume fraction of 88%, material-solvent ratio of 1 ∶ 20 (g/mL), extracting for 2 times, lasting for 57 min each time. Under this technology, average content of osthole was 0.675 7 mg/g (RSD=1.78%, n=3), and the relative error of which to predicted value 0.680 9 mg/g was 0.59%. CONCLUSIONS: The optimal extraction technology is simple and feasible,and it can be used for the extraction of osthole from the pine needles of C. deodara.
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OBJECTIVE: To optimize the water extraction technology of Qiwei chanshen formula. METHODS: The content of polysaccharides from Gekko japonicus and Panax quinquefolium was determined by UV spectrophotometry, the contents of camptothecin from Camptotheca acuminata and ginsenoside Rb1 from P. quinquefolium were determined by HPLC. The extraction rate of above three components, dry extractum yield and HPLC fingerprint similarity were used as evaluation indicators; information entropy theory was used to determine the weight of each indicator so as to calculate comprehensive score. L9(34) orthogonal test was used to screen the optimal extraction technology of Qiwei chanshen formula with decoction time, water volume and decoction times as factors. Validation test was also performed. RESULTS: The optimal extraction technology included 10-fold water, decocting for 3 times, 1.0 h each time. The results of validation test showed that the average extraction rate of polysaccharide, camptothecin and ginsenoside Rb1 were 74.306%, 13.860% and 52.958%, respectively. The average dry extractum yield was 16.150%, the average value of fingerprint similarity was 0.991 (all RSDs<3.0%, n=3). CONCLUSIONS: The optimized extraction technology is reproducible, stable and feasible, providing reference for the subsequent development and industrial production of the formula.
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OBJECTIVE: To optimize the extraction technology of total vitamin E in Euryale ferox. METHODS: With the extraction amount of total vitamin E as reference index, using extraction time, extraction times, ultrasound power and comminution degree as reference factors, single fator test and Box-Behnken design-response surface methodology was used to optimize the extraction technology of total vitamin E from E. ferox. The validation tests were conducted for 3 times (the amounts of E. ferox were 2.0, 20.0, 40.0 g). RESULTS: The optimal extraction technology of vitamin E included that extraction time of 80 min, extraction times of 3 times, ultrasound power of 240 W, comminution degree of 80 mesh. In validation test, extraction rates of total vitamin E were 2.063, 2.103, 2.085 mg/g (RSD=2.6%, 1.5%, 1.3%, n=3), the relative errors of which to predicted value (2.092 mg/g) were 0.14%, 0.53% and 0.33%, respectively. CONCLUSIONS: The optimal extraction technology is reasonable, stable and feasible, and can be used for the extraction of total vitamin E in E. ferox.
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OBJECTIVE: To optimize the water extraction technology of Chaihu anxin capsules. METHODS: Taking comprehensive scoring value of the contents of gallic acid,chlorogenic acid,puerarin,glycoside,rutin,cinnamic acid, quercetin and the yield of extract as investigation index, using multiple of adding liquid, soaking time, reflux time and extraction times as factors, water extraction technology of Chaihu anxin capsule was optimized by Box-Behnken response surface method based on single factor test. Validation test was conducted. RESULTS: The optimal extraction technology of Chaihu anxin capsules was adding 11 times of water, soaking for 10 h, extracting for 2 times, refluxing for 1.5 h each time. In validation test, the relative deviation of comprehensive scoring value to predicted value was 1.87% for 3 batches of samples (RSD<2%, n=3). CONCLUSIONS: The optimal extraction technology is simple, stable and suitable for further production of Chaihu anxin capsules.
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OBJECTIVE: To optimize the extraction technology of Shengmaiyin polysaccharide, and to investigate the regulation effects of Shengmaiyin and its polysaccharide on intestinal function of spleen deficiency model rats. METHODS: The contents of polysaccharide were determined by phenol-sulfuric acid method, and the extraction rate of polysaccharide was calculated. Using extraction rate of Shengmaiyin polysaccharide as investigation index, singel factor and orthogonal tests were used to optimize material-liquid ratio, extraction time, extraction temperature and extraction times of Shengmaiyin polysaccharide. Validation test was also conducted. Totally 80 male SD rats were randomly divided into blank group, model group, Shengmaiyin low-dose, medium-dose and high-dose groups (350, 700, 1 400 g/L, by crude drug), Shengmaiyin polysaccharide low-dose, medium-dose and high-dose groups (24.5, 49, 98 g/L, by crude drug), with 10 rats in each group. Except for blank group, other groups were given Rheum palmatum water decoction 10 mL/kg to induce spleen deficiency model, once a day, for consecutive 15 d. Since the 16th day, blank group and model group were given isovolumic water intragastrically, while other groups were given corresponding drugs, once a day, for consecutive 10 d. The general status of rats and body weights were recorded in each group. The serum contents of D-xylose, gastrin (GAS) and vasoactive intestinal peptide (VIP) were detected by phloroglucinol method or ELISA. RESULTS: The optimal extraction technology of Shengmaiyin polysaccharide was material-liquid ratio 1 ∶ 10(g/mL), extraction time 45 min, extraction temperature 80 ℃, extracting for 1 time. Results of validation test showed that extraction rates of the polysaccharide in 3 times were 7.43%, 7.64%, 7.80% (RSD=1.01%, n=3). After modeling, except for blank group, other groups suffered from loose stools, thin body and reduced food intake, and the body weight and serum level of D-xylose were decreased significantly compared with blank group (P<0.01). After last medication, above symptoms of administration groups were improved to different extents. Except for model group, body weight and serum contents of D-xylose in other groups were increased significantly than those before modeling or before medication (P<0.05 or P<0.01). Compared with blank group, body weight and serum content of GAS were decreased significantly in model group, while serum content of VIP was increased significantly (P<0.01). Compared with model group, body weight of Shengmaiyin medium-dose group and Shengmaiyin polysaccharide low-dose and high-dose groups, serum contents of D-xylose and GAS in Shengmaiyin medium-dose and high-dose groups and Shengmaiyin polysaccharide low-dose and medium-dose groups were increased significantly, while serum contents of VIP in Shengmaiyin groups and Shengmaiyin polysaccharide low-dose and medium-dose groups were all decreased significantly (P<0.05 or P<0.01). CONCLUSIONS: The optimized extraction technology of Shengmaiyin polysaccharide is stable and feasible. Shengmaiyin and its polysaccharide contribute to the recovery of intestinal function of spleen deficiency model rat, the effects of which may be associated with the secretion regulation of GAS and VIP.
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OBJECTIVE: To optimize the water extraction technology of classic formula Taohe chengqi decoction. METHODS: Based on single factor test, combined with response surface methodology and information entropy theory, the soaking time, solid-liquid ratio and extraction time were investigated. Using the contents of rhein, amygdalin, cinnamaldehyde and glycyrrhizic acid in Taohe chengqi decoction as indexes, information entropy theory was used to assign weight coefficients to each evaluation index and calculate the comprehensive score. Through Design-Expert 10 software, the interactions of each factor were analyzed. Water extraction technology was optimized, and validation test was also performed. RESULTS: According to information entropy theory, the weight coefficients of rhein, amygdalin, glycyrrhizic acid and cinnamaldehyde were located at 0.097 6, 0.363 2, 0.173 5 and 0.365 7. The results of interaction analysis showed that the material-liquid ratio had a greater impact on the comprehensive score. The optimal water extraction technology of Taohe chengqi decoction were determined as that soaking time was 60 min; the ratio of material to liquid was 1 ∶ 10 (g/mL); total extraction time was 130 min (extracting for 3 times, lasting for 65, 33, 32 min each time). The results of verification test showed that RSD of content of each index component and the comprehensive score was less than 3%. CONCLUSIONS: The optimal water extraction technology is proved to be stable and feasible, which can provide the basis for the further development and utilization of Taohe chengqi decoction.