Study on the extraction process of Xinyi Powder by ambi-extracting and the inclusion process of volatile oil / 国际中医中药杂志

Objective:To screen the optimal process of ambi-extracting of Xinyi Powder and inclusion of volatile oil.Methods:Single factor experiment was used to optimize the extraction process of Xinyi Powder by taking crushing particle size, extraction times, the amount of water added and extraction time as the investigation factors. L 9(3 4) orthogonal test was used to optimize the inclusion process of volatile oil in Xinyi Powder. Results:The optimal extraction process of ambi-extracting of Xinyi Powder was as follows: the slices were not crushed, 10 times the amount of water was added, and extracted for 3 hours; the best inclusion process of volatile oil as follows: β-cyclodextrin:water=1:25, β-cyclodextrin:volatile oil=6:1, inclusion temperature 35 ℃, inclusion time 3 hours.Conclusion:The ambi-extracting process and volatile oil inclusion process are simple, stable and feasible.

Development of inclusion complex based on cyclodextrin and oxazolidine derivative

Abstract Oxazolidine derivatives (OxD) have been described as third-line antibiotics and antitumoral agents. The inclusion complexes based on cyclodextrin could improve the solubility and bioavailability of these compounds. A novel synthetic OxD was used, and its inclusion complexes were based on 2-hydroxy-beta-cyclodextrin (2-HPßCD). We conducted an in silico study to evaluate the interaction capacity between OxD and 2-HPßCD. Characterization studies were performed through scanning electron microscopy (SEM), Fourier-transformed infrared (FTIR), nuclear magnetic resonance spectroscopy (1H-NMR), X-ray diffraction (XRD), and thermal analyses. A kinetic study of the OxD was performed, including a cytotoxicity assay using peripheral blood mononuclear cells (PBMCs). The maximum increment of solubility was obtained at 70 mM OxD using 400 mM 2-HPßCD. SEM analyses and FTIR spectra indicated the formation of inclusion complexes. 1H-NMR presented chemical shifts that indicated 1:1 stoichiometry. Different thermal behaviors were obtained. The pharmacokinetic profile showed a short release time. Pure OxD and its inclusion complex did not exhibit cytotoxicity in PBMCs. In silico studies provided a foremost insight into the interactions between OxD and 2-HPßCD, including a higher solubility in water and an average releasing profile without toxicity in normal cells

Experimental acute anti-inflammatory activity of preparations with complexed cannabidiol in carriers

Abstract Cannabidiol (CBD) is a bioactive compound with promising anti-inflammatory results but has low aqueous solubility. Complexation of drugs with this characteristic in carriers is an alternative to improve their efficiency. This study aimed to prepare and characterize CBD complexes in different carriers, and to evaluate the anti-inflammatory effect of such preparations using an experimental model of edema induction in rat paws. The results were compared to a reference drug, ibuprofen (IBU). The carriers evaluated were beta cyclodextrin (bCD) and activated charcoal (AC). Quantification of the drugs in the complexes was determined, and different qualitative analyses were also performed. Oral treatments in single doses with CBD showed inhibitory effects similar to that of IBU, potentiating its bioactivity without significant adverse effects. CBD*bCD doses at 4.375, 8.75, 17.5, and 35 mg/kg significantly reduced the intensity of edema compared to equivalent doses of pure bioactive. In contrast, CBD*AC did not generate benefits. There was no significant inhibitory effect on myeloperoxidase activity, requiring more specific analyses to assess this parameter. The results suggest that the CBD*bCD complexation is perfectly feasible, increasing its anti-edematogenic efficacy in the experimental model used.

Inhibitory effect of vorinostat encapsulated hydroxypropyl-β-cyclodextrin eye drops on corneal neovascularization induced by alkali burns in mouse / 中华实验眼科杂志

Objective:To prepare vorinostat encapsulated hydroxypropyl-β-cyclodextrin (SAHA-CD) eye drops and investigate its inhibitory effect on corneal neovascularization (CNV) induced by alkali burns in mouse.Methods:The SAHA-CD eye drops at concentrations of 0.1%, 0.2%and 0.4%were prepared by inclusion technology with hydroxypropyl-β-cyclodextrin, and the content was assayed by high performance liquid chromatography.Seventy-five SPF mice with alkali burn-induced CNV were randomized into 0.1%SAHA-CD group, 0.2%SAHA-CD group, 0.4%SAHA-CD group, dexamethasone group and normal control group according to a random number table, 15 for each group, among which the SAHA-CD groups and dexamethasone group were treated with corresponding drugs, and model control group was treated with normal saline immediately after modeling, four times a day and five microliters each time, lasting for six days.The healing of corneal epithelium was examined with a slit lamp microscope after fluorescein sodium staining, and the areas of cornea epithelial defects were calculated using Eyestudio software.The corneal flat mount was prepared, and the length and areas of CNV were calculated with ImageJ software.The histology of mouse corneas was observed through hematoxylin and eosin staining.The expression level of vascular endothelial growth factor (VEGF), basic fibroblast growth factor (bFGF) and matrix metalloproteinase-9 (MMP-9) in cornea were measured with enzyme linked immunosorbent assay (ELISA) kits.The use and care of animals complied with the ARVO statement and this study protocol was approved by the Experimental Animal Ethics Committee of Henan Eye Institute (No.HNEECA-2020-01).Results:The actual drug contents of the 0.1%, 0.2% and 0.4%SAHA-CD eye drops were 97.62%, 98.33%and 98.14%of the labeled amount.The cornea showed edema and opacification after modeling.On the sixth day after treatment, significant differences were found in the length and areas of CNV among various groups ( F=7.655, 8.802; both at P<0.01).The areas of CNV in 0.2%SAHA-CD, 0.4%SAHA-CD and dexamethasone groups were significantly smaller than model control group, and the length of CNV in 0.1%SAHA-CD, 0.2%SAHA-CD and dexamethasone groups were significantly smaller than model control group (all at P<0.05).On the third and sixth day following modeling, significant differences in the expression levels of VEGF, bFGF and MMP-9 were found among the five groups (third day: F=6.345, 7.149, 18.650; all at P<0.01; sixth day: F=6.749, 5.105, 5.023; all at P<0.01), and the expression levels of VEGF, bFGF and MMP-9 in 0.2%SAHA-CD group were significantly lower than those in 0.1%SAHA-CD group, 0.4%SAHA-CD group and model control group (all at P<0.05). Conclusions:SAHA-CD eye drops can inhibit alkali burn-induced CNV in mouse.

Inclusion complexes of 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin with 2-hydroxypropyl-(-cyclodextrin: solubility and antimicrobial activity

The aim of the present study is to improve the solubility and antimicrobial activity of 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin by formulating its inclusion complexes with 2-hydroxypropyl-ß-cyclodextrin in solution and in solid state. The phase solubility study was used to investigate the interactions between 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin and 2-hydroxypropyl-ß-cyclodextrin and to estimate the molar ratio between them. The structural characterization of binary systems (prepared by physical mixing, kneading and solvent evaporation methods) was analysed using the FTIR-ATM spectroscopy. The antimicrobial activity of 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin and inclusion complexes prepared by solvent evaporation method was tested by the diffusion and dilution methods on various strains of microorganisms. The results of phase solubility studies showed that 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin formed the inclusion complexes with 2-hydroxypropyl-ß-cyclodextrin of AP type. The solubility of 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin was increased 64.05-fold with 50% w/w of 2-hydroxypropyl-ß-cyclodextrin at 37 oC. The inclusion complexes in solid state, prepared by the solvent evaporation method, showed higher solubility in purified water and in phosphate buffer solutions in comparison with 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin alone. The inclusion complexes prepared by solvent evaporation method showed higher activity on Bacillus subtilis and Staphylococcus aureus compared to uncomplexed 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin due to improved aqueous solubility, thus increasing the amount of available 3-(3-(2-chlorophenyl)prop-2-enoyl)-4-hydroxycoumarin that crosses the bacterial membrane.

Design of experiments assisted the development of inclusion complexes of ramipril using hydrophilic carriers for enhancement of solubility and dissolution rate

Abstract The goal of the present study was to develop inclusion complexes and polymers dispersions of ramipril prepared by physical mixing, kneading, co-evaporation, and solvent evaporation methods to enhance drug solubility and dissolution rate, and thereby to reduce drug dose and side effects using selected hydrophilic carriers such as β-CD, PVP-K25, PEG 4000, and HPMC K100M. The prepared formulations were characterized for solubility and in-vitro drug release studies. The systematic optimization of formulations was performed using I-Optimal experimental design by selecting factors such as type of carriers (X1), drug: carrier ratio (X2), and method of preparation (X3), and response variables including percent yield (Y1), solubility (Y2), Carr's index (Y3) and drug release in 30 min (Y4). Mathematical modeling was carried out using a quadratic polynomial model. The inclusion complex formulation (F27) was selected as an optimized batch by numerical desirability function and graphical optimization with the help of design space. The inclusion complex prepared by the co-evaporation method showed maximum drug solubility and released in pH 6.8 phosphate buffer compared to pure and other formulations. The inclusion complex is a feasible approach to improve the solubility, dissolution rate, bioavailability, and minimization of drugs' gastrointestinal toxicity upon oral administration of ramipril.

Effect of preparation methods on tosufloxacin tosylate/ hydroxypropyl-β-cyclodextrin inclusion complex

Abstract The main purpose of this work was to compare the effects of the four preparation methods on the TFLX/HP-β-CD inclusion complex. The effects of different preparation methods on the inclusion complex were investigated by SEM, DSC, PXRD, FT-IR and 1H NMR. All the characterization information indicated that the four preparation methods could cause interaction between TFLX and HP-β-CD, but the inclusion complex prepared by solvent evaporation has more reaction sites. Phase solubility experiments demonstrated that the inclusion reaction was spontaneous. In vitro dissolution experiments showed that the dissolution of the inclusion complex in water was: solvent evaporation method (64.39%) > grinding method (42.37%) > ultrasonic method (40.00%) > freezing method (36.08%), and all higher than pure TFLX and physical mixture. These results suggest that the solvent evaporation is the most suitable method for preparing TFLX/HP-β-CD inclusion complexes.

Characterization of butaselen-2,6-dimethyl-β-cyclodextrin inclusion complexes and preparation of injectable solutions / 药学学报

In this study, butaselen-2,‍6-dimethyl-‍β‍-cyclodextrin inclusion complexes were prepared by saturated aqueous solution method to improve the solubility of butaselen, so as to obtain its injection solutions. The content of butaselen in the inclusions was determined by high performance liquid chromatography (HPLC), and then the preparation process was optimized by orthogonal design using the inclusion ratio as an indicator. X-ray diffraction (XRD), Fourier-transform infrared spectroscopy (FTIR) and scanning electron microscope (SEM) were used to verify the structure of the inclusions. The effects of the inclusions on the solubility and stability of butaselen were also investigated. The results showed that the optimized preparation process with a mass ratio of 1∶340, an encapsulation time of 3 h and an encapsulation temperature of 70 ℃ resulted in an encapsulation ratio of (91.24 ± 0.42) %, and the results of XRD, FTIR and SEM demonstrated the formation of inclusion complexes. The developed HPLC method is rapid, simple, accurate, applicable, specific and reproducible for the determination of butaselen content in butaselen cyclodextrin inclusion complexes, which can lay the foundation for the development of new butaselen dosage forms and clinical applications and provide technical support.

Engineering the 182 site of cyclodextrin glucosyltransferase for glycosylated genistein synthesis / 生物工程学报

Genistein and its monoglucoside derivatives play important roles in food and pharmaceuticals fields, whereas their applications are limited by the low water solubility. Glycosylation is regarded as one of the effective approaches to improve water solubility. In this paper, the glycosylation of sophoricoside (genistein monoglucoside) was investigated using a cyclodextrin glucosyltransferase from Penibacillus macerans (PmCGTase). Saturation mutagenesis of D182 from PmCGTase was carried out. Compared with the wild-type (WT), the variant D182C showed a 13.42% higher conversion ratio. Moreover, the main products sophoricoside monoglucoside, sophoricoside diglucoside, and sophoricoside triglucoside of the variant D182C increased by 39.35%, 56.05% and 64.81% compared with that of the WT, respectively. Enzymatic characterization showed that the enzyme activities (cyclization, hydrolysis, disproportionation) of the variant D182C were higher than that of the WT, and the optimal pH and temperature of the variant D182C were 6 and 40℃, respectively. Kinetics analysis showed the variant D182C has a lower Km value and a higher kcat/Km value than that of the WT, indicating the variant D182C has enhanced affinity to substrate. Structure modeling and docking analysis demonstrated that the improved glycosylation efficiency of the variant D182C may be attributed to the increased interactions between residues and substrate.

Antibacterial and Cytotoxic Effects of Cyclodextrin-Triazole-Titanium Based Nanocomposite

Abstract In this paper, the antibacterial activity of triazole functionalized cyclodextrin (CD.Click) and cyclodextrin-triazole-titanium based nanocomposite (CD.COM) was evaluated. The results indicated that CD.Click and CD.COM perform a wide range of antibacterial activity against both gram positive (Staphylococcus aureus and Bacillus subtilis) and gram negative (Escherichia coli and Pseudomonas aeruginosa) bacteria. The cytotoxic effect of CD.COM was investigated in vitro on cancerous cell lines (cervical cancer, breast carcinoma and sarcoma osteogenic) and fibroblast cells by MTT assay. The cell viability evaluation confirmed that the growth of cancerous cells is inhibited in a dose and time dependent way without any significant effect on the normal fibroblast cells.

Simultaneous improvement to solubility and bioavailability of active natural compound isosteviol using cyclodextrin metal-organic frameworks

Cyclodextrin metal-organic framework (CD-MOF) as a highly porous supramolecular carrier could be one of the solutions to the insolubility of isosteviol (STV). The solubility of STV was lower than 20.00 ng/mL at pH 1.0 and pH 4.5, whilst its solubility increased to 20,074.30 ng/mL at pH 6.8 and 129.58 ng/mL in water with a significant pH-dependence. The

Improving comprehensive retention rate of peppermint oil in freeze-dried preparation based on cyclodextrin inclusion technology / 中国中药杂志

The freeze-drying technique, characterized by low-temperature processing, is especially suitable for sensitive volatile oils with thermal instability. However, there are few studies focusing on the retention of volatile oils in the processing of freeze-dried preparations. This study evaluated the effects of different addition methods(adsorption, emulsification, solid dispersion, and inclusion) on the retention rate of the main components in peppermint oil, aiming to explore the application feasibility of freeze-dried preparations of volatile oils. Firstly, the addition method was determined based on the retention rates of menthol in four freeze-dried preparations. Secondly, an orthogonal test was designed to optimize the preparation process based on the characteristics of the preferred addition method. The results showed that the most suitable preparation form of peppermint oil was inclusion with beta-cyclodextrin(β-CD), and the retention rate of menthol in freeze-drying was 86.36%. According to the two-step preparation process of inclusion and freeze-drying, we introduced the product of inclusion rate and retention rate, i.e., comprehensive retention rate, to determine the optimum processing parameters. The results showed that β-CD/oil ratio of 7∶1, inclusion temperature of 40 ℃, and inclusion time of 2 h were the optimum processing parameters. The product prepared with these parameter had the comprehensive retention rate of 68.41%, retention rate of 92.53%, and inclusion rate of 73.93%. The inclusion compound was white powder with significantly increased solubility. The pre-paration process based on cyclodextrin inclusion in this study is stable and reliable and provides a new idea for ensuring the efficacy and stability of volatile components in freeze-dried preparations.

Preparation and evaluation of methotrexate sustained-release particles using crosslinked cyclodextrin metal-organic frameworks / 药学学报

Methotrexate (MTX) injection has a short half-life and significant toxic side effects. In order to overcome the demerits of MTX injection, MTX@COF was prepared for subcutaneous injection by loading MTX in crosslinked cyclodextrin metal-organic framework (COF) in this study. The cationic lipid material (2, 3-dioleoyl-propyl)-trimethylamine (DOTAP) was then coated on the MTX@COF surface by solvent evaporation. Different surface charge characteristics were observed in the coated MTX@COF@DOTAP with no significant change in particle morphology. The in vitro release behaviors of sustained-release particles were investigated in water and phosphate buffer (pH 7.4), and the in vivo release characteristics were evaluated for pharmacokinetics in rats. The in vitro release results showed that the cumulative release of MTX, MTX@COF and MTX@COF@DOTAP within 6 h was 92.70%, 36.31% and 18.19% in water, respectively; the cumulative release of MTX, MTX@COF and MTX@COF@DOTAP within 4 h was 90.82%, 79.37% and 58.30% in phosphate buffer, respectively; the results showed that MTX@COF can significantly delay the release of MTX, the modification to MTX@COF by DOTAP can further delay the release of MTX. Pharmacokinetic studies in rats showed that the mean retention time [MRT(0-t)] and the time to peak (Tmax) of the subcutaneous injection of MTX@COF@DOTAP group were significantly prolonged compared with the MTX@COF group and the MTX group. The area under the concentration-time curve [AUC(0-t)] of the MTX@COF@DOTAP subcutaneous injection group was 1.8 times high as that of the MTX group. In this study, MTX@COF@DOTAP particles had a certain sustained-release effect, and could prolong the bioavailability of MTX by subcutaneous injection, which provided a new idea for the development of new MTX dosage forms.

Formulation And Evaluation of Fast Dissolving Oral Films Incorporated With Ramipril and β-Cyclodextrin Complex

Abstract Ramipril being ACE inhibitor belongs to BCS class II drug with low solubility and undergoes first-pass metabolism that leads to reduced bioavailability of 28%. The current research is aimed at formulating and evaluating ramipril fast dissolving oral films (FDOF). Solubility enhancement of ramipril was done by formation of inclusion complex with β-cyclodextrin in 3 ratios (1:0.5, 1:1, 1:2). Based on higher drug content and dissolution values the physical mixture of ramipril with β-cyclodextrin in 1:1 ratio (IC2) was chosen for further studies. Total 12 formulations of ramipril FDOF containing IC2 prepared with various polymers and evaluated for physicochemical properties. The optimized formulation F9 shown better tensile strength (11.6 g/cm2), significant % elongation (9.8) and maximum % drug content of 99.98 %. The formulation F9 exhibited minimum disintegration time of 9 sec that is desirable for immediate onset of action and maximum drug release. The FTIR data of F9 assured the compatibility of drug and formulation excipients, found to be stable for 180 days at accelerated conditions. The study confirmed that ramipril FDOF lead to quicker onset of action and enhanced therapeutic efficiency in comparison to marketed product.

Economic model for obtaining cyclodextrins from commercial cgtase

A repetitive batch process was employed followed by membrane ultrafiltration system to produce low-cost cyclodextrins (CDs) using commercial enzymes Toruzyme® cyclomaltodextrin glucanotransferase (CGTase) and its kinetic parameters were determined. The ultrafiltration system enabled the removalof inhibitory products from the reaction medium, allowing the enzyme to be recovered for reuse. A 10 kDa membrane was used to separate the different CDs produced by the CGTase. The substrates evaluated were maltodextrin, corn starch and cassava starch at 5, 10 and 15% (w/V), in the presence and absence of 10% (V/V) ethanol. After reaction for 132 h, 10% (w/V) cassava starch in the presence of ethanol provided the best results with 32.1 mg/mL of ß-CD. Maximum production occurred after 72 h of reaction, with a yield of 87.4% of ß-CD and an α-CD, ß-CD and γ-CD production ratio of 1:1:0.08 g, respectively. When eight repetitive batches of 72 h followed by ultrafiltration and crystallization of ß-CD were performed, 2.1 g of precipitate was obtained with a purity of 67.6% ß-CD. The supernatant from the crystallization process was lyophilized and resulted in 35.3% α-CD. The developed model can be used industrially for the production of low cost CDs from easily obtained raw material

Targeting of temozolomide using magnetic nanobeads: an in vitro study

Temozolomide, a chemotherapeutic drug that is often administered for the treatment of brain cancer has severe side effects and a poor aqueous solubility. In order to decrease the detrimental effect of the drug over healthy cells, a novel drug delivery vehicle was developed where the therapeutic drug was encapsulated within the hydrophobic cavities of b-CD modified magnetite nanoparticles, which are embedded in chitosan nanobeads prepared by salt addition. In-vitro studies have shown that the magnetic properties of the novel delivery vehicle are adequate for targeted drug delivery applications under an external magnetic field. Additionally, an increase in the amount of chitosan was shown to exhibit a strong shielding effect over the magnetic properties of the delivery vehicle, which lead to deterioration of the amount of captured drug at the targeted area, suggesting a delicate balance between the amounts of constituents composing the drug delivery vehicle.

Effect of Phospholipid Composition on Intradermal Delivery of Fluorescent Modified Cyclodextrin Liposomes / 中国药学杂志

OBJECTIVE: To compare the intradermal delivery effects of composite phospholipid liposomes composed of different proportions of soy phospholipids (SPC) and hydrogenated soy phospholipids (HSPC) on the fluorescent modified hydroxypropyl-β-cyclodextrin(HP-β-CD), and to optimize the phospholipid composition with the best skin retention. METHODS: The fluorescent probe, fluorescein isothiocyanate (FITC), was combined with HP-β-CD to prepare fluorescent modified cyclodextrin FITC-HP-β-CD. FITC-HP-β-CD was encapsulated in different composite phospholipid liposomes. The amount of the permeation in the receiving solution and skin retention of the cyclodextrin after 10 h were determined in the in vitro intradermal delivery experiment. RESULTS: The order of cyclodextrin permeation of liposomes in the receiving solution was SPC > S/H (3:1) > S/H (1:1) > S/H (1:3) > HSPC >FITC-HP-β-CD, while the order of cyclodextrin intradermal retention was S/H (1:1) > S/H (1:3) > HSPC > S/H (3:1) > SPC > FITC-HP-β-CD. CONCLUSION: Using SPC to prepare liposomes is more beneficial to promote the permeation of FITC-HP-β-CD into the skin than HSPC, but the addition of HSPC can increase the skin retention of FITC-HP-β-CD. The S/H(1:1) liposomes have the better intradermal delivery effect on the fluorescent modified cyclodextrin, of which the skin retention effect is the best.

Optimization of inclusion process of Huaweishu Granules volatile oil based on the multi-index comprehensive scoring method / 中草药

Objective: To optimize the inclusion process for the volatile oil in Huaweishu Granules. Methods: Taking the ratio of volatile oil to β-cyclodextrin, inclusion temperature, stirring speed and stirring time as the factors, the inclusion process conditions were optimized by orthogonal test, the weight coefficients of each index were determined by entropy weight method, and the inclusion complex was verified by thin layer chromatography. Results: The inclusion rate of volatile oil obtained by stirring method was the highest, with the ratio of β-cyclodextrin to volatile oil of 10:1, the inclusion temperature was 40 ℃, the stirring time was 1 h, and the stirring rate was 400 r/min. Conclusion: The optimized volatile oil inclusion process is stable and feasible, with high inclusion rate of volatile oil and yield of inclusion compound.

Including preparation of cinnamon oil by vinyl pyrrolidone/vinyl acetate copolymer VA64-Soluplus spray-dried microspheres / 中草药

Objective: To investigate the applicability of the spray-dried microspheres of vinyl pyrrolidone/vinyl acetate copolymer VA64-Soluplus for inclusion of cinnamon oil (CO) and compare with traditional inclusion technology of β-cyclodextrin. Methods: HPLC was used to determine the encapsulation rate of inclusion complex. Transmission electron microscopy (TEM), scanning electron microscopy (SEM), differential scanning calorimetry (DSC), and X-ray powder diffraction (XRD) were used to characterize the inclusion complex; The dissolution and stability of the inclusion complex was investigated by in vitro release test and accelerated stability test; The pharmacokinetic and analgesic efficacy tests were used to examine the bioavailability and efficacy of the inclusion complex. Results: The encapsulation rate of microsphere inclusion complex and β-cyclodextrin inclusion complex was (98.38 ± 0.30)% and (86.51 ± 0.52)%, respectively. Observation of the inclusion complex under TEM showed a uniform spherical-like structure with uniform dispersion; Observation under SEM showed that the inclusion complex was spherical with a concave surface; The endothermic peak of volatile oil of cinnamon in DSC and the diffraction peak in XRD disappeared. The cinnamon volatile oil was dispersed in theinclusion complex in the form of non-aggregation; The cumulative release rates of cinnamon volatile oil, microsphere inclusion complex and β-cyclodextrin inclusion complex in in vitro dissolution experiments were 97.05%, 93.36% and 80.26%, respectively; Accelerated stability test at 60 ℃ showed that the loss rate of volatile oil of microsphere inclusion complex was significantly lower than that of cinnamon volatile oil and β-cyclodextrin inclusion complex; Pharmacokinetics showed that the AUC0-∞ of cinnamon essential oil, microsphere inclusion complex and β-cyclodextrin inclusion complex were basically the same; Pharmacodynamics showed that the analgesic rates of cinnamon volatile oil in the three groups were 53.0%, 47.5% and 21.1%, respectively. Conclusion: The stability of cinnamon volatile oil was enhanced by the combination of spray-dried microspheres of vinyl pyrrolidone/vinyl acetate copolymer VA64-Soluplus. The in vitro release, bioavailability and analgesic efficacy of microsphere were basically consistent with the volatile oil of cinnamon volatile oil, and it was superior to the inclusion compound of β-cyclodextrin. The vinyl pyrrolidone/vinyl acetate copolymer VA64-Soluplus microsphere inclusion compound had better water solubility. This study provides a new method for the inclusion of volatile oil.

Study on the inclusion technic of hydroxypropyl-β-cyclodextrin in tea tree oil and evaluation of its included compounds / 国际中医中药杂志

Objective@#This study takes hydroxypropyl-β-cyclodextrin (HP-β-CD) as the inclusion materials to optimize the preparation technic of tea tree oil (TTO) and evaluate its pharmaceutical performance.@*Methods@#Take the production rate of HP-β-CD tea tree oil inclusion and entrapment rate as the evaluation index, taking the orthogonal test method to optimize the production technic of tea tree oil (HP-β-CD inclusion and using infrared (IR), differential thermal scanning (DSC) method to characterize the inclusion compound to analyze the stability of TTO-HP-β-CD.@*Results@#The best technic to produce HP-β-CD tea tree oil is as follow: the ratio of TTO and HP-β-CD should be equal to 1/10, at 40 ℃, within 1 h. The average drug loading shoud be 9.25% ± 3.25%. The IR, DSC characterization results showed that the characteristic peak of tea tree oil disappeared after the microspheres, which indicated the HP-β-CD encapsulated the tea tree oil with good compatibility. In 80 ℃ water bath, the TTO-HP-β-CD was stable with the retention rate 40% after 8 h, the retention rate was 4.32 times than that of the unwrapped tea tree oil.@*Conclusions@#The HP-β-CD tea tree oil obviously has higher rate of inclusion and stability. Therefore, it’s worth to promoting and being used in the pharmacy preparations and cosmetics field.