Response Surface Optimization for Water-Assisted Extraction of Two Saponins from Paris polyphylla var. yunnanensis Leaves.

The process of extracting polyphyllin II and polyphyllin VII by water-assisted extraction was established and optimized in this study. Response surface methodology was used to establish a prediction model to optimize the extraction conditions. Based on the one-way test, the Box-Behnken design with three factors and three levels was used for the experimental program, and the composition analysis was carried out by high-performance liquid chromatography (HPLC). The optimal extraction conditions for polyphyllin II and polyphyllin VII were as follows: extraction time of 57 and 21 min, extraction temperature of 36 and 32 °C, solid-to-liquid ratio of 1:10 and 1:5 g/mL, respectively, and the yields of polyphyllin II and polyphyllin VII were 1.895 and 5.010%, which was similar to the predicted value of 1.835 and 4.979%. The results of the ANOVA showed that the model fit was good, and the Box-Behnken response surface method could optimize the water-assisted extraction of saponins from the leaves of Paris polyphylla var. yunnanensis. This study provides a theoretical basis for the application of polyphyllin II and polyphyllin VII in pharmaceutical production.

[Processing Magnoliae Officinalis Cortex with ginger juice: process optimization based on AHP-CRITIC weighting method and composition changes after processing].

The weight coefficients of appearance traits, extract yield of standard decoction, and total content of honokiol and magnolol were determined by analytic hierarchy process(AHP), criteria importance though intercrieria correlation(CRITIC), and AHP-CRITIC weighting method, and the comprehensive scores were calculated. The effects of ginger juice dosage, moistening time, proces-sing temperature, and processing time on the quality of Magnoliae Officinalis Cortex(MOC) were investigated, and Box-Behnken design was employed to optimize the process parameters. To reveal the processing mechanism, MOC, ginger juice-processed Magnoliae Officinalis Cortex(GMOC), and water-processed Magnoliae Officinalis Cortex(WMOC) were compared. The results showed that the weight coefficients of the appearance traits, extract yield of standard decoction, and total content of honokiol and magnolol determined by AHP-CRITIC weighting method were 0.134, 0.287, and 0.579, respectively. The optimal processing parameters of GMOC were ginger juice dosage of 8%, moistening time of 120 min, and processing at 100 ℃ for 7 min. The content of syringoside and magnolflorine in MOC decreased after processing, and the content of honokiol and magnolol followed the trend of GMOC>MOC>WMOC, which suggested that the change in clinical efficacy of MOC after processing was associated with the changes of chemical composition. The optimized processing technology is stable and feasible and provides references for the modern production and processing of MOC.

Optimization of extraction process of Sarcandra glabra by combination of entropy weight method with Box-Behnken response surface method / 中国药房

OBJECTIVE To optimize the extraction process of Sarcandra glabra. METHODS The contents of rosmarinic acid and isofraxidin in S. glabra were determined by HPLC； ultrasonic time， ultrasonic temperature， solid-liquid ratio （mL/g） and methanol volume fraction were investigated by single factor test. Based on the results of single factor test， experimental scheme was designed by Box-Behnken response surface method， and the entropy weight method was used to assign the weight of each index and calculate the comprehensive score. Taking the comprehensive score as the evaluation index， the extraction process of S. glabra was optimized， and then optimized extraction process was verified. RESULTS The optimal extraction technology of S. glabra included ultrasonic time of 40 min， ultrasonic temperature of 45 ℃， liquid-solid ratio of 50∶1， methanol volume fraction of 70%. The results of 3 times of verification experiment showed that average comprehensive score was 0.988 6， and the RSD was 0.50%. The deviation between the actual value and the predicted value （0.985 1） of each comprehensive score was within ±1%. CONCLUSIONS The optimized extraction method is stable， feasible and repeatable， which can provide reference for extraction of S. glabra.

Optimization of water extraction process of Maxing kechuan granules / 中国药房

OBJECTIVE To optimize the water extraction process of Maxing kechuan granules. METHODS With the contents of ephedrine hydrochloride， bergenin， prim-O-glucosylcimifugin， 5-O-methylvisamin， naringin and hesperidin and the rate of extraction as the evaluation indexes， the weight was determined by the analytic hierarchy process（APH）-entropy weight method， and the comprehensive score was calculated as the response value. Based on the single-factor test， the Box-Behnken response surface method was used to investigate the factors， and the best water extraction process of Maxing kechuan granules was optimized； process validation was also carried out. RESULTS The best water extraction process of Maxing kechuan granules optimized was as follows： soaking for 40 minutes， adding 8 times water， and extracting for 180 minutes. After three validation tests， the comprehensive score was 94.82 （RSD＝0.96%， n＝3）， which had a small difference from the predicted value of 94.64. CONCLUSIONS The water extraction process of Maxing kechuan granules is stable and reliable， which can provide a reference for the development of the preparation.

Processing Magnoliae Officinalis Cortex with ginger juice: process optimization based on AHP-CRITIC weighting method and composition changes after processing / 中国中药杂志

The weight coefficients of appearance traits, extract yield of standard decoction, and total content of honokiol and magnolol were determined by analytic hierarchy process(AHP), criteria importance though intercrieria correlation(CRITIC), and AHP-CRITIC weighting method, and the comprehensive scores were calculated. The effects of ginger juice dosage, moistening time, proces-sing temperature, and processing time on the quality of Magnoliae Officinalis Cortex(MOC) were investigated, and Box-Behnken design was employed to optimize the process parameters. To reveal the processing mechanism, MOC, ginger juice-processed Magnoliae Officinalis Cortex(GMOC), and water-processed Magnoliae Officinalis Cortex(WMOC) were compared. The results showed that the weight coefficients of the appearance traits, extract yield of standard decoction, and total content of honokiol and magnolol determined by AHP-CRITIC weighting method were 0.134, 0.287, and 0.579, respectively. The optimal processing parameters of GMOC were ginger juice dosage of 8%, moistening time of 120 min, and processing at 100 ℃ for 7 min. The content of syringoside and magnolflorine in MOC decreased after processing, and the content of honokiol and magnolol followed the trend of GMOC>MOC>WMOC, which suggested that the change in clinical efficacy of MOC after processing was associated with the changes of chemical composition. The optimized processing technology is stable and feasible and provides references for the modern production and processing of MOC.

Study on the extraction of polysaccharides from Dendrobium officinale and its improvement effect on acute lung injury in mice / 中国药房

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.

Optimization of molding process and physical fingerprint of Shuangye pipa granules based on QbD concept / 中国药房

OBJECTIVE To optimize the molding process of Shuangye pipa granules based on the concept of quality by design （QbD） and analyze its physical fingerprint. METHODS The dry extract of Shuangye pipa granules was used as the main drug. The retention rate of total flavonoid， moisture absorption rate， dissolution rate， angle of repose and molding rate of the granules were selected as evaluation indexes. The single-factor test combined with the entropy weight method and Box-Behnken response surface design was used to optimize the molding process， and validation test was conducted. The physical fingerprints of 10 batches of Shuangye pipa granules prepared by the optimal process were comprehensively analyzed by eight secondary physical indexes （relative homogeneity， moisture， moisture absorption rate， Hausner ratio， angle of repose， bulk density， tap density and porosity）. RESULTS The optimal molding process of Shuangye pipa granules was as follows： soluble starch-maltodextrin-mannitol was 1∶1∶1 （m/m/m）， 95% ethanol was as wetting agent and the amount of it was 37%， the drug-assisted ratio was 1∶0.8 （m/m）， the drying temperature was 59 ℃， drying time was 28 min. The results of 3 validation tests showed that the average comprehensive score was 0.879 6， the RSD of which with prediction value （0.881 9 score） was 1.97%. The similarity between the physical fingerprints of 10 batches of Shuangye pipa granules and the control physical fingerprint was higher than 0.99. CONCLUSIONS The optimized molding process of Shuangye pipa granules is stable and feasible， and the physical property of Shuangye pipa granules is stable and controllable.

Optimization of the formulation of a porcine fibrin patch / 中国药房

OBJECTIVE To optimize the formulation of a porcine fibrin patch （abbreviated as “DBT”）. METHODS Based on single-factor tests， with the contents of fibrinogen， thrombin and collagen before freeze-drying as the factors， with the overall desirability （OD） value of adhesion strength， holding viscosity and water absorption as response value， the formulation of DBT was optimized by Box-Behnken-response surface methodology， and the verification tests were conducted. RESULTS According to the results of the single factor tests and Box-Behnken-response surface methodology， combined with the actual production， the optimal formulation of DBT was 6.5 mg/cm2 of fibrinogen， 8.0 IU/cm2 of thrombin and 5.6 mg/mL of collagen. The average OD value of 3 validation tests was 0.726 6 （RSD＝0.58%， n＝3）， and the relative error of which with the predicted value （0.733 0） was －0.87%. CONCLUSIONS The optimal formulation of DBT is stable and feasible.

Response surface modeling and optimization of the extraction conditions using lactic acid-based deep eutectic solvents as green alternative extraction media for Mentha pulegium.

INTRODUCTION: Most recurrently available organic solvents are toxic and inflammable and pose high risks to human health. Natural deep eutectic solvents (NADESs) have been developed as promising green alternatives. OBJECTIVE: We aimed to extract polyphenolic compounds from Mentha pulegium using lactic acid-based deep eutectic solvents. Extraction parameters were optimized by response surface methodology. MATERIAL AND METHODS: Combined with ultrasound-assisted extraction, three different lactic acid-based deep eutectic solvents were investigated for the extraction of polyphenols. Methanol (80%, v/v) was used for comparison. The optimized influencing factors were: water content in solvent, extraction time, and temperature. The design was adopted including 17 experiments with three center points. RESULTS: All NADESs tested showed an excellent extraction efficacy compared to 80% methanol. Under the optimized conditions, with 45% of water, at 30°C, and for extraction 90 min, the highest extraction yields were recorded using lactic acid:sodium acetate (3:1), achieving 173.35 ± 0.02 mg gallic acid equivalents (GAE)/g dry weight (dw) of polyphenols and 95 ± 0.09% antioxidant activity. After extraction for 90 min at 80°C with 18% of water, we obtained 164.06 ± 0.01 mg GAE/g dw and 94 ± 0.02% antioxidant activity using lactic acid:glucose (5:1). Efficient recovery (64.92 ± 0.01 mg GAE/g dw and 97 ± 0.1% antioxidant activity) was achieved using lactic acid:glycine (3:1) with 31% of water, at 35°C, and extraction for 30 min. CONCLUSION: Our results indicate that with optimized parameters, the proposed natural solvents are excellent alternatives to chemical ones for the extraction of phenolic compounds.

[Formulation optimization of emodin nanostructured lipid carriers by Box-Behnken response surface method and in vitro quality evaluation].

Emodin nanostructured lipid carriers(ED-NLC) were prepared and their quality was evaluated in vitro. Based on the results of single-factor experiments, the ED-NLC formulation was optimized by Box-Behnken response surface method with the dosages of emodin, isopropyl myristate and poloxamer 188 as factors and the nanoparticle size, encapsulation efficiency and drug loading as evaluation indexes. Then the evaluation was performed on the morphology, size and in vitro release of the nanoparticles prepared by emulsification-ultrasonic dispersion method in line with the optimal formulation, i.e., 3.27 mg emodin, 148.68 mg isopropyl myristate and 173.48 mg poloxamer 188. Under a transmission electron microscope(TEM), ED-NLC were spherical and their particle size distribution was uniform. The particle size of ED-NLC was(97.02±1.55) nm, the polymer dispersion index 0.21±0.01, the zeta potential(-38.96±0.65) mV, the encapsulation efficiency 90.41%±0.56% and the drug loading 1.55%±0.01%. The results of differential scanning calorimeter(DSC) indicated that emodin may be encapsulated into the nanostructured lipid carriers in molecular or amorphous form. In vitro drug release had obvious characteristics of slow release, which accorded with the first-order drug release equation. The fitting model of Box-Behnken response surface methodology was proved accurate and reliable. The optimal formulation-based ED-NLC featured concentrated particle size distribution and high encapsulation efficiency, which laid a foundation for the follow-up study of ED-NLC in vivo.

Study on the degradation mechanism of 2-amino-4-acetaminoanisole from wastewater by nano-Fe3O4-catalyzed Fenton system.

2-Amino-4-acetaminoanisole (AMA) is an intermediate product in the synthesis of many commercial dyes, and its wide application has led to the generation of a series of AMA dye wastewater. Discharge of untreated AMA dyed wastewater could bring environmental concerns. The present study featured H2O2 Fenton system to degrade 2-amino-4-acetaminoanisole from wastewater using nano-Fe3O4 catalyst prepared via the co-precipitation method. Furthermore, the Box-Behnken design (BBD) response surface method was used to investigate the individual effects of Fe3O4 dosage, H2O2 dosage, initial pH, and reaction time on AMA removal, while in the interaction study, the Design-Expert 10.0 software was applied to obtain a quadratic response surface model. Results indicated that the catalytic effect of nano-Fe3O4 showed better degradation performance as compared to FeSO4 Fenton system. The order of the influence of the selected independent variables on the response value is as follows: nano-Fe3O4 dosage > H2O2 dosage > reaction time > pH. As for 3.04 × 105 µg/L of AMA dye wastewater, the optimal reaction conditions considered in this study are 1.70 g/L of nano-Fe3O4 dosage, 53.52 mmol/L of H2O2 dosage, pH 5.14, and 388.97 min as system reaction time. Furthermore, HPLC-MS was employed to analyze the degradation mechanism of AMA and the reaction intermediate products. Possible degradation pathways of AMA by radicals were addressed. Findings of this research provide fundamental theory and guide practical AMA treatment during wastewater treatment.

Formulation optimization of emodin nanostructured lipid carriers by Box-Behnken response surface method and in vitro quality evaluation / 中国中药杂志

Emodin nanostructured lipid carriers(ED-NLC) were prepared and their quality was evaluated in vitro. Based on the results of single-factor experiments, the ED-NLC formulation was optimized by Box-Behnken response surface method with the dosages of emodin, isopropyl myristate and poloxamer 188 as factors and the nanoparticle size, encapsulation efficiency and drug loading as evaluation indexes. Then the evaluation was performed on the morphology, size and in vitro release of the nanoparticles prepared by emulsification-ultrasonic dispersion method in line with the optimal formulation, i.e., 3.27 mg emodin, 148.68 mg isopropyl myristate and 173.48 mg poloxamer 188. Under a transmission electron microscope(TEM), ED-NLC were spherical and their particle size distribution was uniform. The particle size of ED-NLC was(97.02±1.55) nm, the polymer dispersion index 0.21±0.01, the zeta potential(-38.96±0.65) mV, the encapsulation efficiency 90.41%±0.56% and the drug loading 1.55%±0.01%. The results of differential scanning calorimeter(DSC) indicated that emodin may be encapsulated into the nanostructured lipid carriers in molecular or amorphous form. In vitro drug release had obvious characteristics of slow release, which accorded with the first-order drug release equation. The fitting model of Box-Behnken response surface methodology was proved accurate and reliable. The optimal formulation-based ED-NLC featured concentrated particle size distribution and high encapsulation efficiency, which laid a foundation for the follow-up study of ED-NLC in vivo.

Calcium oxide modification of activated sludge as a low-cost adsorbent: Preparation and application in Cd(II) removal.

In this study, a simple to produce, low-cost and environment-friendly sludge based adsorbent, prepared from municipal dewatered sludge and modified by calcium oxide (CaO), is described. The enhancement effect of CaO modification on the adsorption capacity and mechanical strength of sludge based adsorbents (CaO-SA), and the modification mechanism of CaO on activated sludge are discussed. Also, the Cd(II) adsorption conditions are optimized using surface optimization experiment. The results indicated that CaO had a good effect on improving the adsorption capacity and mechanical strength of the sludge-based adsorbent. The CaO-SA adsorbent showed best performance with respect to the mechanical strength and Cd(II) adsorption capacity when prepared under 5% CaO dosage and 60 °C drying temperature. CaO modification can increase the specific surface area and calcium ion content of the sludge-based adsorbent and remove the proton of the carboxylic acid in the sludge. The Box-Behnken experimental design results revealed that the importance of operating conditions for CaO-SA adsorption of Cd(II) can be arranged in the order of adsorption time > dosage> pH> temperature. The results also indicated that the interactions between adsorption time and CaO-SA dosage, adsorption time and pH, adsorption time and temperature are all important factors affecting the Cd(II) adsorption. The optimal conditions (adsorption time of 90 min, CaO-SA dosage of 1 g/L, pH of 5 and adsorption temperature of 40 °C) for CaO-SA to adsorb Cd(II) were obtained by surface optimization, at which the Cd(II) adsorption rate could reach a value of 99.74%.

Optimization of the Honey-stir-fired Technology of Chelidonium majus / 中国药房

OBJECTIVE：To optimize the honey-stir-fried technology of Chelidonium majus . METHODS ：Taking the mass ratio of water to honey ，the ratio of honey water to C. majus ，stir-fired temperature ，stir-fired time as the factors ，the total contents of chelidonine ，coptisine hydrochloride ，sanguinarine，berberine，chelerythrine as response values ，Box-Behnken response surface method was used to optimize the processing technology ，and valifation test was conducted. RESULTS ：The optimum process conditions were as follows the ratio of water to refined honey 1∶1.9（g/g），the ratio of honey water to C. majus 21∶100（g/g）， stir-fried temperature 122 ℃，stir-fried time 10.40 min. After 3 times of validation ，average total contents of 5 components was 10.37 mg/g（RSD＝0.23％），relative error of which with predicted value （10.39 mg/g）was 0.19％. CONCLUSIONS ：The optimized honey-stir-fried technology of C. majus is stable and feasible.

Preparation, statistical optimization, in vitro characterization, and in vivo pharmacological evaluation of solid lipid nanoparticles encapsulating propolis flavonoids: a novel treatment for skin edema.

Propolis is a natural resinous product and exerts anti-inflammatory properties. The aim of this study is formulation and characterization of solid lipid nanoparticles (SLNs) encapsulating propolis flavonoids (PFs), intended for topical treatment of skin edema. The nanoparticles were prepared and statistically optimized using Box-Behnken response surface methodology. The in vitro release profile of the optimized nanoparticles was investigated. Cytotoxicity of nanoparticles on HSF-PI 18 cell line was determined. Permeation and penetration of nanoparticles across the incised skin were measured. Finally, the nanoparticles were incorporated into a pharmaceutical hydrogel formulation and the in vivo efficacy in reduction of skin edema was determined. The size, PdI, zeta potential, entrapment efficiency (EE%) and loading efficiency (LE %) of the optimized nanoparticles were 111.3 ± 19.35 nm, 0.34 ± 0.005, -24.17 ± 3.3 mV, 73.5 ± 0.86%, and 3.2 ± 0.27%, respectively. Data obtained through in vitro release study suggested a burst release followed by a prolonged release behavior up to 24 h post incubation time interval. The prepared SLNs exhibited no cytotoxicity on HSF-PI 18 cell line. Ex vivo permeation and penetration study of nanoparticles across the incised skin showed approximately a 2.5-fold and a 3-fold increase in cumulative amount of transport and cumulative amount of skin penetration, respectively. Finally, in vivo studies in rat models, showed a threefold reduction in volume of the edema in animals treated with SLNs. The obtained data revealed that the prepared SNs entrapping PFs, exert high skin targeting effects, prolonged anti-inflammatory properties and therefore high efficiency in treatment of skin edema.

[Preparation and in vitro quality evaluation of self-microemulsion co-loaded with tenuifolin and ß-asarone].

To prepare and optimize the self-microemulsion co-loaded with tenuifolin and ß-asarone(TF/ASA-SMEDDS) and evaluate its quality. The prescription compositions of TF/ASA-SMEDDS were screened by solubility test, single factor test and pseudo-tern-ary phase diagram, and the prescriptions were further optimized by Box-Behnken response surface method, with the drug loading and particle size as the evaluation indexes. Then the optimized TF/ASA-SMEDDS was evaluated for emulsified appearance, particle size, morphology and drug release in vitro. The optimized prescription for TF/ASA-SMEDDS was as follows: caprylic citrate triglyceride polyoxyethylene castor oil-glycerol(10.8∶39.2∶50), drug loading of(5.563±0.065) mg·g~(-1) for tenuifolin and(5.526±0.022) mg·g~(-1) for ß-asarone; uniform and transparent pan-blue nanoemulsion can be formed after emulsification, with particle size of(28.84±0.44) nm. TEM showed that TF/ASA-SMEDDS can form spherical droplets with a uniform particle size after emulsification; In vitro release test results showed that the drug release rate and cumulative release of tenuifolin and ß-asarone were significantly improved. The preparation process of TF/ASA-SMEDDS was simple and can effectively improve in vitro release of tenuifolin and ß-asarone.

Optimization of extraction process of Compound Guizhi Shaoyao Zhimu Granules by combination of response surface methodology with entropy weight method / 中草药

Objective: To optimize the extraction process parameters of Guizhi Shaoyao Zhimu Granules (GSZG). Methods: Using high performance liquid chromatography and Elisa, the extraction rate of trans-cinnamaldehyde, paeoniflorin, mangiferin, glycyrrhizic acid, the dry extract yield of extracted herbs and inflammatory factor IL-6 were comprehensively evaluated. The information entropy weighting method was used to determine the objective weight of each index, and response surface methodology was adopted to optimize the extraction process parameters of GSZG. Results: The method had good linear relationship within the range of 3.27-104.64 μg/mL for trans-cinnamaldehyde (r = 0.999 9), 8.16-261.03 μg/mL for paeoniflorin (r = 1.000 0), 1.39-89.27 μg/mL for mangiferin (r = 0.999 9), and 1.00-33.00 μg/mL for glycyrrhizic acid ammonium salt (r = 0.999 9). Guizhi-Shaoyao-Zhimu extraction had the effect of inhibiting the proliferation of MH7A cells (molded by TNF-α) with IC50 of 1.02 mg/mL, and had anti-inflammatory activity. Entropy method was more scientific, reasonable and stable. According to the comprehensive scoring results and practical situation, it was determined that the best extraction process of the preparation was to add 16 times the amount of water, and decocted three times for 1 h each time. The RSD of the predicted value was less than 3% compared with the measured value. Conclusion: The preferred process has high extraction rate, with good stability and repeatability, which is suitable for the mass production of GSZG.

Preparation and pharmacodynamic study of Oral Disintegration Tablets of "Hugan I" / 中草药

Objective: To optimize the prescription and preparation process of "Hugan I" Orally Disintegrating Tablets, and investigate its efficacy against acute liver injury in mice. Methods: Single factor method was used for disintegrants, lubricants, and fillers screening. Taking the appearance, hardness, friability and disintegration time of the tablets as the comprehensive evaluation index, the dosage of disintegrant, micro-silica gel and magnesium stearate was selected as the investigation factor. The Box-Behnken response surface method was used to optimize the orally disintegrating tablets. Acetaminophen (APAP, 500 mg/kg) was used to replicate acute liver injury model by one-time high-dose intragastric administration to investigate the effects of orally disintegrating tablets on the activities of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) in serum, the content of glutathione (GSH) and malondialdehyde (MDA) and morphological changes in liver tissue. Results: The optimal prescription was as following: dry paste powder 22.00%, microcrystalline cellulose 18.00%, sorbitol 20.00%, mannitol 16.00%, Aspartame 0.50%, citric acid 0.50%, disintegration agent L-HPC 20.00%, micro-powder silica gel 2.50% and magnesium stearate 0.50%. The hardness of the orally disintegrating tablets was 4-7 kg, the mean disintegration time was about 50 s, and the mean friability was around 0.85%. Compared with the model group, there were significant differences (P < 0.01) in Biphenyl diester control group, "Hugan I" Decoction group and "Hugan I" Orally Disintegrating Tablets group, and the levels of ALT and AST in the serum of the mice were significantly decreased, The content of MDA in the liver tissue was decreased, which improved the damage of APAP to liver tissue. Conclusion: The formulation of the "Hugan I" Orally Disintegrating Tablet is feasible and easy to operate, which achieves the same effect with "Hugan I" Decoction that effectively prevent liver damage caused by acetaminophen with no significant differences.

Formulation Optimization of Compound Renshen Jianti Formulation and Study on Its Anti-fatigue Activity and Acute Toxicity / 中国药房

OBJECTIVE：To optimi ze the ratio of four comp onents of Compound renshen jianti formulation （Panax ginseng ， Dioscorea oppositifolia ，Lycium barbarum fruit，Alpinia oxyphylla ），and to investigate its anti-fatigue activity and acute toxicity. METHODS：The water extract of Compound renshen jianti formulation was prepared by water extraction ，concentration and decompression drying. By single factor tests ，using weight-bearing swimming time as index ，the effects of four factors were investigated，such as the amount of P. ginseng ，D. oppositifolia ，L. barbarum fruit，A. oxyphylla . On the basis of single factor tests，using comprehensive score of weight-bearing swimming time ，serum urea nitrogen content ，liver glycogen content and AUC of blood lactate after exercise as index ，the formulation was optimized by Box-Behnken response surface method. The mice was divided into blank control group （water），positive control group （Renshen hongjingtian capsules ，0.135 g/kg）and compound low-dose，medium-dose and high-dose groups [the optimal ratio of Compound renshen jianti formulation extract （called“optimal compound formulation ”for short ）4.08，8.16，12.24 g/kg，by crude drug] ，intragastric administration of drug or distilled water 20 mL/kg，once a day ，for consecutive 30 d. The weight-bearing swimming time ，the contents of serum urea nitrogen ，liver glycogen and blood lactate AUC after exercise were used to optimize its anti-fatigue activity of optimal compound formulation. The comprehensive score was calculated based on the measured data of mice in the compound formulation middle-dose group ， and the difference between it and the theoretical prediction value was compared. The mice were given optimal compound formulation intragastrically （total dose 16.00 g/kg， by extract）. The general state ， body mass change ， toxic characteristics and death of mice were observed and recorded for 14 days. Median lethal dose （LD50）and maximum tolerated dose （MTD）were measured. RESULTS ：The optimal formulation ratio of Compound renshen jianti formulation included that P. ginseng 1.5 g，D. oppositifolia 10 g，L. barbarum fruit 10 g，A. oxyphylla 3 g. Results of anti-fatigue activity validation test showed that the optimal compound formulation could significantly prolonged weight-bearing swimming time ，reduced serum content of urea nitrogen ，blood lactate content and its AUC （except for low-dose group ），while significantly increased the content of liver glycogen （P＜0.05 or P＜0.01）. Average comprehensive score of medium-dose group was 96.95，which was only 0.06％ different from the theoretical prediction value of 97.01. The results of acute toxicity test showed that there was no death in mice. The oral MTD of the optimal compound formulation was more than 15 g/kg，which was non-toxic. CONCLUSIONS ：The optimal Compound renshen jianti formulation has effective anti-fatigue activity of mice ，and has no significant toxic effect.

Preparation and in vitro quality evaluation of self-microemulsion co-loaded with tenuifolin and β-asarone / 中国中药杂志

To prepare and optimize the self-microemulsion co-loaded with tenuifolin and β-asarone(TF/ASA-SMEDDS) and evaluate its quality. The prescription compositions of TF/ASA-SMEDDS were screened by solubility test, single factor test and pseudo-tern-ary phase diagram, and the prescriptions were further optimized by Box-Behnken response surface method, with the drug loading and particle size as the evaluation indexes. Then the optimized TF/ASA-SMEDDS was evaluated for emulsified appearance, particle size, morphology and drug release in vitro. The optimized prescription for TF/ASA-SMEDDS was as follows: caprylic citrate triglyceride polyoxyethylene castor oil-glycerol(10.8∶39.2∶50), drug loading of(5.563±0.065) mg·g~(-1) for tenuifolin and(5.526±0.022) mg·g~(-1) for β-asarone; uniform and transparent pan-blue nanoemulsion can be formed after emulsification, with particle size of(28.84±0.44) nm. TEM showed that TF/ASA-SMEDDS can form spherical droplets with a uniform particle size after emulsification; In vitro release test results showed that the drug release rate and cumulative release of tenuifolin and β-asarone were significantly improved. The preparation process of TF/ASA-SMEDDS was simple and can effectively improve in vitro release of tenuifolin and β-asarone.