Optimization of the medium and fermentation condition for the Penicillium aurantiocandidum Z12 strain with molluscicidal actions against Oncomelania hupensis / 中国血吸虫病防治杂志

Objective To optimize the culture and fermentation conditions of the Penicillium aurantiocandidum Z12 strain, a fungal strain with molluscicidal actions against Oncomelania hupensis, so as to provide the basis for the research and development of molluscicidal active substances from the P. aurantiocandidum Z12 strain and its fermentation broth and large-scale fermentation. Methods The carbon source, nitrogen source and mineral salts were identified in the optimal culture medium for the P. aurantiocandidum Z12 strain with a single-factor experiment to determine the best fermentation condition for the P. aurantiocandidum Z12 strain. Factors that significantly affected the growth of the P. aurantiocandidum Z12 strain were identified using the Plackett-Burman design, and the best range of each factor was determined using the steepest climb test. Response surface analyses of temperature, pH value, seeding amount and liquid-filling quantity were performed using the Box-Behnken design to create a regression model for fermentation of the P. aurantiocandidum Z12 strain to identify the optimal culture medium. Results Single-factor experiment preliminarily identified the best culture medium and conditions for the P. aurantiocandidum Z12 strain as follows: sucrose as the carbon source at approximately 20 g/L, tryptone as the nitrogen source at approximately 5 g/L, K2HPO4 as the mineral salt at approximately 5 g/L, initial pH at approximately 8, temperature at approximately 28 °C, seeding amount at approximately 6%, and liquid-filling quantity at approximately 50 mL/100 mL. Plackett-Burman design showed that factors that significantly affected the growth of the P. aurantiocandidum Z12 strain included temperature (t = −5.28, P < 0.05), seeding amount (t = 5.22, P < 0.05), pH (t = −4.30, P < 0.05) and liquid-filling quantity (t = −4.39, P < 0.05). Steepest climb test showed the highest mycelial growth at pH of 7.5, seeding amount of 8%, and liquid-filling quantity of 40 mL/100 mL, and this condition was selected as the central point of response surface analysis for the subsequent optimization of fermentation conditions. Response surface analyses using the Box-Behnken design showed that the optimal conditions for fermentation of the P. aurantiocandidum Z12 strain included sucrose at 15 g/L, tryptone at 5 g/L, K2HPO4 at 5 g/L, temperature at 28.2 °C, pH at 7.5, seeding amount at 10%, and liquid-filling quantity at 35.8 mL/100.0 mL, resulting in 0.132 g yield of the P. aurantiocandidum Z12 strain. Conclusion The optimal culture condition for the P. aurantiocandidum Z12 strain has been identified, and the optimized culture medium and fermentation condition may effectively improve the fermentation yield of the P. aurantiocandidum Z12 strain.

Bioconversion of glycerol waste to ethanol by Escherichia coli and optimisation of process parameters

Biofuel is one of the best ways to reduce our dependence on fossil fuels. Ever since commercial biodiesel production began, waste glycerol, the biodiesel byproduct, has gained researchers’ interest, especially its recycling. Here, we explored using glycerol residue (carbon source) as a substrate in the fermentation process for ethanol production by Escherichia coli K12 in anaerobic conditions. The factors affecting the ethanol production was optimised by response surface methodology (RSM). Significant variables that impact the ethanol concentration were pH, temperature and the substrate, with a statistically significant effect (P <0.05) on ethanol formation. The significant factor was analyzed by the Box-Behnken design. The optimum conditions for bioethanol formation using glycerol as substrate was obtained at pH 7 and temperature 37°C. The ethanol productivity was 0.77 g/L/h. The ethanol concentration of 9.2 g/L achieved from glycerol residue was close to the theoretical value with the fermentation achieved at optimised terms.

Preparation of curcumin nanocrystalline injection and evaluation of its in vivo and in vitro properties / 中国药科大学学报

@#In this study, the formulation and preparation process of curcumin nanocrystalline injection were optimized to improve curcumin dissolution rate and bioavailability in vivo.Media grinding method was used to prepare curcumin nanocrystals, and the particle size was used as the evaluation index.The Box-Behnken experimental design was used to optimize its formulation and preparation process, and to characterize its physical and chemical properties.In addition, the dissolution of nanocrystal with different particle sizes was investigated by the paddle method, and the pharmacokinetics in rats were studied.The experimental results showed that the optimal formula and process were obtained through Box-Behnken experimental design, and that uniform curcumin nanocrystals with an average particle size of 223.1 nm were obtained.The results of X-ray diffraction and differential scanning calorimetry analysis showed that the crystal form was stable during the preparation of nanocrystals. In vitro dissolution experiments with different particle sizes showed that the dissolution rate and the degree of dissolution would increase if the particle size was smaller.Pharmacokinetic studies in rats showed that cmax and AUC0-∞ of curcumin nanocrystal injection were 4.9 and 4.1 times that of curcumin raw materials, respectively.In summary, the curcumin nanocrystal injection developed in this research have a stable preparation process and can significantly improve the dissolution rate and bioavailability of the drug, which provides some ideas for the research on curcumin preparation.

Optimization of the extraction technology of modified Tabusen- 2 and its inhibitory effects on osteoclast differen- tiation / 中国药房

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.

Optimization of preparation technology of baicalin lipid nano foam aerosol / 中国药房

OBJECTIVE To optimize the pr eparation technology of the baicalin lipid nano foam aerosol （BC-LN-FA）. METHODS Baicalin lipid nanoparticle （BC-LN）and BC-LN-FA were prepared by the thin film dispersion method and homogeneous emulsification method ，respectively，using baicalin （BC） as the model drug. The preparation technology was optimized by Box-Behnken design-response surface methodology using particle size and encapsulation efficiency （EE）as indexes ，with dosage ， emulsifier dosage ，co-emulsifier dosage and homogenization time as factors. The morphology ，particle size ，polymerdispersity index（PDI），EE，the viscosity ，the foam dissolution rate and in vitro transdermal release of BC-LN-FA were characterized. RESULTS The optimal technology included 25 mg BC ，40 mg emulsifier （mass ratio of stearic acid-soybean lecithin-glycerol was 1∶1∶1），30 mg co-emulsifier （mass ratio of octadecanol-lactic acid was 1∶1），homogenization time of 20 min. Results of 3 times of validation tests showed that particle size of prepared BC-LN-FA was （151.70±2.40）nm，EE was （68.62±1.16）％；the deviation of them from the predicted value （particle size of 150.80 nm，EE of 67.02％）were 0.60％ and 2.39％ respectively. The BC-LN-FA prepared by the optimal process was light yellow opalescence ，uniform in particle size and round-like in shape. The viscosity，the foam dissolution rate ，the content of BC and PDI were （122.92±5.09）mPa·s，（65.32±3.22）％，（7.01±0.12）％ and（0.199±0.006），respectively. At 48 h，the cumulative release rates of BC-LN-FA in phosphate buffer saline （PBS）at pH 7.4， 6.8，5.0 were（54.12±2.69）％，（57.85±4.25）％ and（59.47±1.83）％，respectively；those of free BC in PBS at pH 7.4 was only （15.04±1.43）％. CONCLUSIONS The optimized technology is stable and feasible. Prepared BC-LN-FA has a uniform particle size，high digestion rate and certain viscosity.

Optimization of the extraction technology of volatile components from Wuyao decoction / 中国药房

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.

Optimization of Extraction Technology of Total Triterpenes from the Leaves of Cornus officinalis by Box-Behnken Design-response Surface Methodology / 中国药房

OBJECTIVE：To optimize the extraction technology for total triterpenes from the leaves of Cornus officinalis . METHODS：Based on the full swelling of the leaves of C. officinalis ，total triterpenes was extracted with heating reflux method. The effects of ethanol concentration ，liquid-solid ratio ，extraction time and extraction times on the contents of total triterpenes from the leaves of C. officinalis were investigated by single factor test. Using oleanolic acid as control ，the contents of total triterpenes were detected by UV spectrometry. On the basis of single factor test ，fixing the times of extraction a s 3 times，taking the contents of total triterpenes as response value ，using ethanol volume fraction ，solid-liquid ratio and extraction time as factors ， Box-Behnken design-response methodology was used to optimize the extraction technology of total triterpenes from the leaves of C. officinalis，and the optimized extraction technology was validated. RESULTS ：The optimal extraction technology of total triterpenes from the leaves of C. officinalis were as follows as ethanol concentration of 73％，liquid-to-material ratio of 38 ∶ 1（mL/g）， extraction time of 60 min. Results of 3 validation tests showed that the contents of total triterpenes from the leaves of C. officinalis were 6.92％，6.91％，6.84％；the average content was 6.89％（RSD＝0.63％），relative error of which with the predicted value （7.28％）was 5.36％. CONCLUSIONS ：The optimized technology is stable and reliable ，and can be used for the extraction of total triterpenes from leaves of C. officinalis .

Optimization of pectin extraction from selected Philippine fruit peel wastes using Box-Behnken design

Background@#Pectin is a pharmaceutically relevant excipient that can be upcycled from selected Philippine fruit peel wastes. Method optimization of pectin extraction leads to maximizing yields from limited resources, while also reducing environmental wastes, and providing local alternative sources. @*Objectives@#This study aimed to optimize the method of extracting pectin from selected Philippine fruit peel wastes using the Box-Behnken design, by varying the acid extraction solvent, treatment time, and working temperature. @*Methodology@#The three-level (-1, 0, 1) Box-Behnken design (15 set-ups) was used to optimize the pectin extraction in each of the fruit peel samples (C. maxima; A. heterophyllus; ripe and unripe M. indica; D. zibethinus; and H. undatus). The three experimental factors were the type of 3N acid used as extracting solvent (HNO₃, H₂SO₄, and HCl); duration of treatment in minutes (60, 90, and 120); and temperature of treatment in C 60, 75, and 90). The %yield was computed in each set-up, and the projected yields were generated using multiple linear regression. The pectin samples obtained from the optimized conditions were subjected to the physicochemical characterization, with apple pectin as the standard. Degree of esterification (DE), equivalent weight (EW), methoxy content (MC), alkalinity of ash (AA), and anhydrouronic acid content (AUA) were performed. @*Results@#Maximum yields were extracted from C. maxima (28.96%), A. heterophyllus (20.12%), ripe M. indica (26.23%), and unripe M. indica (25.89%), using 3N H₂SO₄, for a treatment duration of 60 minutes, at a working temperature of 90 C, and H. undatus (25.03%) at 60 C, for a treatment duration of 120 minutes. @*Conclusion@#Optimum conditions were identified to extract pectin in each of the fruit peel samples. The 3N H₂SO₄ produced the highest pectin yields in all of the set-ups, while the treatment time and working temperature vary per fruit peel sample. Pectin extract from C. maxima, A. heterophyllus, and M. indica was comparable to the standard.

Research on feedforward control method of mixing process for compound Danshen Dripping Pills based on quality by design(QbD) / 中国中药杂志

The mixing process is one of the key operation units for solid preparation of traditional Chinese medicine. The physical properties such as particle size, density and viscosity of the mixture are key factors that need to be controlled, which will directly affect the performance of the preparation molding process and product quality. Subsequent dripping process performance and appearance qua-lity of dripping pills will be affected by dynamic viscosity of materials in the mixing process. Based on this, with mixing process of compound Danshen dripping pills as the object, a feedforward control method for the dripping pill mixing process was established based on the concept of quality by design(QbD). Firstly, critical quality attribute(CQA)-dynamic viscosity, critical material attributes(CMAs)-the moisture content of compound Danshen extract, average molecular weight of polyethylene glycol 6000 and critical process parameter(CPP)-mixing temperature were identified through the analysis of properties for multiple batches of the raw materials and excipients as well as technological mechanism. Then the Box-Behnken experimental design was used to establish the regression model among CMA, CPP and CMA(R■=0.972 0, RMSE =16.24) to obtain the design space. Finally, through the verification of three batches within the design space, the mixing process temperature was adjusted according to the properties of the raw materials and exci-pients to achieve accurate control of the dynamic viscosity attribute. The relative deviation between the actual dynamic viscosity value and the target value was less than 3.0 %. The feedforward control of the mixing process of compound Danshen dripping pills was rea-lized in this study, which can contribute to improving quality consistency of the mixing process intermediates, simultaneously provide a reference for the research on the process quality control of other Chinese medicine dripping pills.

Formulation Optimization and Characterization of Docetaxel PELGE Nanoparticles and Preliminarily Evaluation of Its Drug Release and Antitumor Activity in vitro / 中国药房

OBJECTIVE：To optimize the f ormulation of docetaxel （DTX）-mPEG-PLGA-mPEG （PELGE）-nanoparticles （NPs），and to characterize it and evaluate its in vitro drug release and antitumor activity. METHODS ：PELGE were synthesized by ring-opening polymerization. DTX-PELGE-NPs were prepared by using emulsion solvent evaporation method. The content of DTX in DTX-PELGE-NPs was determined by HPLC. Box-Behnken design-response surface methodology was applied to optimize the formulation of the nanoparticles using the amount of DTX ，PELGE and poloxamer 188 as independent variable ，using entrapped efficiency as dependent variable. The particle size and Zeta-potential of DTX-PELGE-NPs were characterized by laser particle size analyzer and transmission electron microscope. The in vitro release of the DTX-PELGE-NPs was investigated by ultra-filtered centrifugation，using DTX injection as reference. In vitro cytotoxicity of the DTX-PELGE-NPs was investigated by MTT assay ， using DTX and PELGE-NPs without DTX as reference . RESULTS ：The optimal formulation included 2.80 mg DTX ，20.60 mg PELGE and 6％ poloxamer 188. The entrapped efficiency of optimized DTX-PELGE-NPs was （86.79±1.32）％；drug-loading amount was （10.21±0.78）％，and average particle size was （78.4±2.9）nm；polydispersity coeffici ent was （0.187±0.018）and Zeta potential was （－20.6±1.5）mV. Furthermore ，DTX- PELGE-NPs showed a regular spherical and uniform distribution under scanning electron microscopy. Compared with DTXinjection（accumulative release rate of 92.3％ at 4 h），DTX- PELGE-NPs had a significant sustained-release effect （accumu-lative release rate of 78.6％ at 36 h）. 0.1-50 μg/mL PELGE-NPs had no obvious cytotoxicity to human breast cancer cells MCF-7（P＞0.05）. 0.5-10 μg/mL DTX-PELGE-NPs could significantly inhibit the growth of human breast cancer cells MCF-7， and its inhibitory effect （except for DTX-PELGE-NPs 10 μg/mL group）was significantly stronger than that of DTX injection （P＜ 0.05）. CONCLUSIONS ：The optimized formulation is stable and feasible. The obtained DTX-PELGE-NPs not only have uniform particle size ，high encapsulation rate obvious slow-release effect ，but also have stronger anti-tumor effect in vitro than DTX injection.

Optimization of the Formulation of Curcumin Transethosomes / 中国药房

OBJECTIVE：To optimize the formulation of Curcumin （CUR）transethosomes（CUR-TEs）. METHODS ：The contents of CUR in CUR-TEs were determined by HPLC. CUR-TEs were prepared by injection method. Using comprehensive score of encapsulation efficiency and drug loading as index ，based on signal factor test ，Box-Behnken design-response surface method was used to optimize and validate the formulation. The property of CUR-TEs prepared by the optimal formulation was investigated. RESULTS：The optimal formulation of CUR-TEs was as follows as lecithin of 4％，CUR of 0.13％，1，2-propylene glycol of 25％，tween-80 of 1％. Results of validation test of optimal formulation showed that comprehensive score of encapsulation efficiency and drug loading of CUR-TEs was 93.04±2.16，relative error of which to predicted value （91.19）was 2.03％. The encapsulation efficiency of CUR-TEs prepared by optimal formulation was （91.17±1.35）％，and its drug loading was （0.94± 0.02）％. The particle size was （190.64±15.97）nm with polydispersity index of 0.086±0.007，and Zeta potential was （－12.74± 1.60）mV. CONCLUSIONS ：The optimized formulation of CUR-TEs is stable ，feasible and repeatable ，with good stability.

Optimization of the Extraction Technology of Phenolic Acid from Amomum tsaoko / 中国药房

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 .

Optimization of Ultrafiltration Technology of Enzymatic Hydrolysate from Eucommia ulmoides Peel / 中国药房

OBJECTIVE：To optim ize the ultrafiltration technology of enzymatic hydrolysate from Eucommia ulmoides peel. METHODS：The single factor test was adopted to investigate the effects of molecular weight of ultrafiltration membrane ，liquid temperature，operating pressure ，operating frequency ，membrane filtration time ，liquid concentration and pH on transfer rates of aucubin，geniposide and chlorogenic acid as well as solid removal rate in enzymatic hydrolysate from E. ulmoides peel. Setting the molecular cut off of fixed ultrafiltration membrane of 100 000，liquid concentration of 7 g/L，and pH value of 7，the ultrafiltration technology was optimized by Box-Behnken design response-surface methodology and validated with liquid temperature ，operating pressure，operating frequency and membrane passing time as factors ，using comprehensive scores calculated from transfer rates of aucubin，geniposide and chlorogenic acid as well as solid removal rate as indexes. RESULTS ：The optimal ultrafiltration technology of enzymatic hydrolysate from E. ulmoides peel was as follows as liquid temperature of 35 ℃，operating pressure of 0.5 MPa，operating frequency of 35 Hz and membrane passing time of 42 min. Results of validation tests showed that the comprehensive scores of the transfer rates of aucubin ，geniposide and chlorogenic acid as well as solid removal rate in enzymatic hydrolysate from E. ulmoides peel was 78.06％（RSD＝1.43％，n＝3），and its relative error with the predicted value （77.18％） was 1.14％. CONCLUSIONS ：The optimized ultrafiltration technology is stable and reliable ，and can be used for the ultrafiltration purification of enzymatic hydrolysate from E. ulmoides peel.

Box–Behnken design-based HPLC optimization for quantitative analysis of chloramphenicol and hydrocortisone acetate in cream

Inserting chloramphenicol (CL) and hydrocortisone acetate (HCA) in cream preparation is intended to have activityagainst skin infection and dermatitis and such a product is available in the Indonesian market. Due to its capabilityas a separation technique, chromatography is widely used for the analysis of mixture in pharmaceutical products.The objective of this study was to develop high-performance liquid chromatography (HPLC) combined with anexperimental design for an effective analysis of CL and HCA in a cream formulation. In this study, the experimentalBox–Behnken design (BBD) was used. BBD is one of the useful experimental designs for the optimization ofchromatographic separation and analysis and for getting a better understanding of the interaction of studied factors onHPLC separation quality. Separation and HPLC analysis of CL and HCA were performed using a Shimadzu LC-20ADchromatograph, a Waters X-Bridge C-18 column (250 × 4.6 mm ID, 5 µm), and a UV-Vis detector at 261 nm. HPLCmethod was validated according to the International Conference on Harmonization by determining several analyticalperformances intended for the method’s purpose. Based on BBD, the optimal condition of HPLC was obtained usinga mobile phase of acetonitrile 47%– 53%, with a flow rate of 0.9 ml/minutes and a column temperature of 38°C. Thevalidation of HPLC resulted in the selectivity of a method with a resolution value of ≥1.5, linearity with a correlationcoefficient of >0.999, intraday and inter-day precisions with relative standard deviation values of ≤1.9%, and recoveryvalues in the range of 98%−102%. The validated method is successfully used for the analysis of CL and HCA in creamformulations. BBD could be an effective design to get the optimum reversed HPLC condition for the separation of CLand HCA in a cream formulation

Formulation and optimization of Enalapril Maleate-loaded floating microsphere using Box–Behnken design: in vitro study

The objective was to prepare an Enalapril Maleate (EnM)-loaded floating microsphere with minimum particle size,maximum drug loading, and drug entrapment efficiency. Formulations were prepared by varying drug-to-polymerratio (A), solvent ratio (B), and stirring time (C). The solvent evaporation method was used to prepare the microsphere.“Box–Behnken’s design” (3 factors × 3 levels) was utilized for optimization. The independent variables were polymerto-drug ratio (A), solvent ratio (B), and stirring time (C), while particle size (R1), drug loading (R2), and entrapmentefficiency (R3) were considered as dependent variables. EnM-loaded alcohol microsphere (Formulation-A) wasprepared and optimized. Both Formulation-A and EnM-loaded acetonitrile microspheres (Formulation-B) weresubjected to morphological, micrometric, characterization, and in vitro release studies. The particle size, drug loading,and entrapment efficiency of Formulation-A and Formulation-B were 143 ± 27.75 µm, 37.31% ± 5.73%, and 76.89%± 4.97%, and 158.13 ± 25.1 µm, 40.13% ± 6.12%, and 99.19% ± 1.14%, respectively. The cumulative drug releasesof Formulation-A and Formulation-B were 90.52% ± 4.11% and 86.23% ± 3.81%, respectively. Both formulationsfollowed the Higuchi model of drug release. EnM-floating microsphere was effectively prepared and both formulationsshowed excellent continuous release properties for more than 12 hours.

Extracción e identificación de lípidos polares de las microalgas Nannochloropsis oceanica y Desmodesmus asymmetricus / Extraction and identification of polar lipids from microalgae Nannochloropsis oceanica and Desmodesmus asymmetricus / Extração e identificação os lipídios polares das microalgas Nannochloropsis ocean ca e Desmodesmus asymmetricus

Resumen Los lípidos polares de las microalgas sor de gran interés debido a su aplicación como ingredientes naturales novedosos para las industrias cosmética, nutricional y farmacéutica. Por ello, el presente trabajo buscó determinar el efecto de los principales factores en la extracción e identificación de los lípidos polares de las microalgas Nannochloropsis oceanica y Desmodesmus asymmetricus, mediante el diseño de superficie de respuesta de Box-Behnken y el diseño factorial completo, respectivamente. Estas cepas del Banco de Germoplasma de Organismos Acuáticos (BGOA - IMARPE) fueron cultivadas en un invernadero, en biorreactores de 30 litros, centrifugadas y liofilizadas. Los lípidos fueron extraídos con cloroformo-metanol, fraccionados y analizados con un espectrómetro de masas Waters Xevo G2-XS QTOF. La maximización de la extracción de los lípidos totales determinó un valor óptimo de la relación masa-solvente de 25mg/3 mL, una proporción 1:1 de cloroformo-metanol, aproximadamente, y un tiempo del baño de ultrasonido entre 10 y 30 min. Los principales lípidos polares identificados para N. oceanica fueron lisofosfatidilcolina (LPC), diacilgliceril-N,N,N-trimetilhomoserina (DGTS), digalactosil diacilglicerol (DGDG) y monogalactosil diacilglicerol (MGDG) y para D. asymmetricus fueron sulfoquinovosil diacilglicerol (SQDG), LDGTS, DGTS, DGDG y MGDG.

Abstract The microalgae polar lipids are of great interest due to their application as novel natural ingredients for the cosmetic, nutritional, and pharmaceutical industry. For this reason, the present work sought to determine the effect of the main factors in the extraction and identification of polar lipids from the microalgae Nannochloropsis oceanica and Desmodesmus asymmetricus, using Box-Behnken response surface methodology design and full factorial design, respectively. These strains from the Germplasm Bank of Aquatic Organisms (BGOA - IMARPE) were grown in a greenhouse, in 30 L bioreactors, centrifuged and lyophilized. The lipids were extracted with chloroform-methanol, fractionated and analyzed with the Waters Xevo G2-XS QTOF mass spectrometer. The maximization of total lipid extraction determined an optimal value of the mass-solvent ratio of 25 mg / 3 mL, an approximate ratio of chloroform-methanol 1:1 and an ultrasound bath time between 10 and 30 min. The main polar lipids identified for the N. oceanica microalgae were lysophophatidylcholine (LPC), diacylglyceryl-N,N,N-trimethylhomoserine (DGTS), digalactosyldiacylglycerol (DGDG), and monogalactosyldiacylglycerol (MGDG) and for D. asymmetricus were sulfoquinovosyl diacylglycerol (SQDG), LDGTS, DGTS, DGDG, and MGDG.

Resumo Os lipídios polares das microalgas possuem grande interesse em sua aplicação como novos ingredientes naturais na indústria cosmética, nutricional e farmacêutica. A presente pesquisa procura determinar o efeito dos principais fatores na extração e identificação dos lipídios polares das microalgas Nannochloropsis oceanica e Desmodesmus asymmetricus, por meio do um experimento de Box-Behnken e um experimento fatorial completo, respectivamente. As cepas do Banco do Germoplasma do Organismos Aquáticos (BGOA - IMARPE), foram cultivadas em casa de vegetação, em biorreatores do 30 L, centrifugadas e liofilizadas. Os lipídios foram extraídos com clorofórmio-metanol, fracionados e analisados com o espectrómetro do massa Waters Xevo G2-XS QTOF. A maximização da extração lipídica determinou um valor ótimo da razão massa-solvente de 25 mg / 3 mL, uma proporção aproximadamente clorofórmio-metanol de 1:1 e no tempo do banho de ultrassom entre 10 e 30 minutos. Os principais lipídios polares identificados para das microalgas N. oceanica foram lisofosfatidilcolina (LPC), diacilgliceril-N,N,N-trimetil-homoserina (DGTS), digalactosil diacilglicerol (DGDG) e monogalactosil diacilglicerol (MGDG), e para D. asymmetricus foram sulfoquinovosil diacilglicerol (SQDG), LDGTS, DGTS, DGDG e MGDG.

Formulation Evaluation And Optimization Of Chitosan Coated Ceftriaxone Loaded Microparticles

Ceftriaxone, a third generation cephalosporin antibiotic is an important antibiotic used in the treatment of invasive infections caused by the certain bacteria such as the penicillin-resistant microorganisms like Staphyloccocus aureus, strains of S. pneumonia, S. aureus and Enterobacteriaceae , particularly among E. coli. There is increasing antimicrobial resistance of Ceftriaxone in particular against these strains of bacteria. This study has been conducted to formulate, evaluate and optimize chitosan coated ceftriaxone loaded microparticles with better efficacy and also observes the MIC against strains of bacteria. Emulsion crosslinking method was used for the formulation of microparticles of ceftriaxone by using chitosan as a polymer and glutraldehyde as a cross linking agent which is optimized by using Box-Behnken Design. Three independent variables were taken; effect of drug and the polymer ratio, effect of the stirring speed and effect of crosslinking agent and dependent variables were microparticles entrapment efficiency and the In vitro drug release. Following optimization of the formulations, physical characterization as well as entrapment efficiency and ultimately in-vitro evaluation was performed. Physical characterization include optical microscopy, SEM and DLS to check there physical properties. The method used for the formulation of microparticle had the optimum entrapment efficiency of 61.7% which was increase with the increase in the addition of the more amount of chitosan and glutraldehyde and method also achieved the good in vitro release. MIC studies of microparticles were done against Klebsiella pneumonia, Staphylococcus aureus, Streptococcus mutans, Escherichia coli and it was found that the formulations showed decrease in MIC.

Box-Behnken response surface method optimized BSP/PVA wet spinning process and fiber performance evaluation / 中草药

Objective: To optimize Bletilla striata polysaccharide (BSP)/polyvinylalcohol (PVA) wet spinning process by Box- Behnken response surface method and prepare the composite fiber and performe their structural characterization and performance evaluation. Methods: Taking the OD value of three types of mechanical property data (breaking force, breaking strength and elongation at break) of the fiber as the evaluation index, five factors (BSP mass fraction, PVA mass fraction, volumetric mix ratio of BSP/PVA, coagulation time and spinning speed) were investigated by single factor experiments. On the basis of the results of single factor experiments, three factors (BSP mass fraction, volumetric mix ratio of BSP/PVA, coagulation time) were investigated by response surface method to optimize BSP/PVA composite fiber wet spinning process. The morphology, structure, thermal property, and absorption property of the fibers were characterized and analyzed by SEM, IR, DSC, and water absorption test. Berberine hydrochloride (BH) was used as model drug to evaluate the drug loading property of the composite fiber and antibacterial activity of the drug loading fiber. Results: The optimal spinning process of composite fiber were as follows: BSP mass fraction was 7.5%, volume mixing ratio of BSP/PVA was 1:1 and coagulation time was 3 min. The composite fiber had a dense surface and formed a three-dimensional network structure inside, generated intermolecular forces, which enhanced the thermal and mechanical properties, and exhibited excellent water absorption capacity. The encapsulation efficiency of the composite fiber reached 70.2%. And the drug loading fiber formed obvious inhibition zone in the bacteriostatic zone test, which presented excellent antibacterial effect against E. coli and S. aureus. Conclusion: The optimized spinning process is feasible and low cost. The prepared composite fiber has better physical property and certain coating ability, and its application in the field of biomedical textiles is worth further study.

Response surface methodology-based optimization of ultrasound-assisted extraction of β-sitosterol and lupeol from Astragalus atropilosus (roots) and validation by HPTLC method

Objective: To optimize the ultrasonication method for efficient extraction of β-sitosterol and lupeol from the roots of Astragalus atropilosus using Box-Behnken design of response surface methodology (RSM), and its validation by high performance thin layer chromatography (HPTLC) method.Methods: Ultrasonication method was used to extract β-sitosterol and lupeol from Astragalus atropilosus (roots). RSM was used to optimize the different extraction parameters viz. liquid to solid ratio (10–14 mL/g), temperature (60-80 ℃) and time (40–60 min) to maximize the yield of β-sitosterol and lupeol. The quantitative estimation of β-sitosterol and lupeol was done in chloroform extract of Astragalus atropilosus by validated HPTLC method on 10 cm × 20 cm glass-backed silica gel 60F254 plate using hexane and ethyl acetate (8:2, v/v) as mobile phase. Results: A quadratic polynomial model was found to be most appropriate with regard to R1 (yield of total extraction; R2/％ CV = 0.9948/0.28), R2 (β-sitosterol yield; R2/％ CV = 0.9923/0.39) and R3 (lupeol yield; R2/％ CV = 0.9942/0.97). The values of adjusted R2/predicted R2/signal to noise ratio for R1, R2, and R3 were 0.9782/0.9551/48.77, 0.9904/0.9110/31.33, and 0.9927/0.9401/36.08, respectively, indicating a high degree of correlation and adequate signal. The linear correlation plot between the predicted and experimental values for R1, R2, and R3 showed high values of R2 ranging from 0.9905-0.9973. β-sitosterol and lupeol in chloroform extract of Astragalus atropilosus were detected at Rf values of 0.22 and 0.34, respectively, at λ max = 518 nm. The optimized ultrasonic extraction produced 8.462％ w/w of R1, 0.451％ w/w of R2 and 0.172％ w/w of R3 at 13.5 mL/g liquid to solid ratio,78 ℃ of temperature and 60 min of time.Conclusions: The experimental findings of RSM optimized extraction and HPTLC analysis can be further applied for the efficient extraction of β-sitosterol and lupeol in other species of Astragalus.

Optimization of Primary Processing Technology of Gentiana rigescens by Box-Behnken Design-response Surface Method / 中国药房

OBJECTIVE：To optimize the primary processing technology of Gentiana rigesce ns. METHODS ：HPLC method was adopted for content determination of loganic acid ，swertiamarin and gentiopicroside in G. rigescens ，and overall desirability value （OD value ） of the contents of above 3 components was taken as index to carry out single factor test on blanching temperature，blanching time and drying temperature. Based on that ，Box-Behnken design-response surface methodology was used to optimize primary processing technology of G. rigescens . Validation test was also performed. The samples prepared by optimized technology were compared with those dried in the shade. RESULTS ：The optimal primary processing technology of G. rigescens included blanching time of 5 min，blanching temperature of 40 ℃ and drying temperature of 60 ℃. Validation test showed that the average OD value of the 3 components was 0.565 2，with a deviation of 0.94％ from the predicted value （0.570 6）. Compared with samples dried in the shade ，OD value of 3 components in samples prepared by optimized technology were increased significantly ， indicating the quality of the samples prepared by the optimized technology was better. CONCLUSIONS ：The optimal technology is stable and feasible ，and can be used for the primary processing of G. rigescens .