单分散壳聚糖微囊的制备与表征

对水溶性壳聚糖和对苯二甲醛在水/油界面发生的交联反应进行了研究,考察了水相溶液的pH值和油相中对苯二甲醛的浓度对该界面交联反应的影响.采用微流控技术制备得到了单分散的壳聚糖微囊:首先通过毛细管同轴聚焦流微流控装置制备得到单分散的O/W/O乳液.乳液制备中,以Pluronic F-127作为水相乳化剂,羟乙基纤维素作为水相增稠剂,水溶性壳聚糖溶于中间水相;交联剂对苯二甲醛溶于内部油相;含乳化剂PGPR 90的大豆油作为外部油相.乳液制备完成后,以乳液为模板,对苯二甲醛通过油/水界面扩散进入水层,与壳聚糖的氨基发生交联反应,生成壳聚糖聚合物凝胶网络,从而构成微囊的囊壁.通过光学显微镜分析和扫描电镜观察发现:微囊具备良好的单分散性和球形度以及尺寸均一的内部空腔,微囊的囊壁致密无孔.所得单分散微囊在药物传递等领域具备潜在的应用价值.     

Preparation and characterization of poly(melamine-formaldehyde) microcapsules filled with propisochlor

A novel propisochlor microcapsules suspension (CS) was prepared via in-situ polymerization. The preparation of melamine-formaldehyde resin microcapsules containing propisochlor with different ratios of core-shell material was investigated. The synthesized microcapsules were characterized by Fourier Transform Infrared spectrometer, Scanning Electron Microscope, Ultraviolet spectrometry, Thermogravimetric analyses and particle size analyzer. As the ratio of core/shell was 1, the diameter of the prepared microcapsules was the smallest (3.55?µm), while narrowest size distribution (span: 1.19) and the melamine formaldehyde microcapsules possessed the highest encapsulation efficiency (93.26%). The surface of the microcapsules was smooth and the microcapsules had poor adhesion. These microcapsules had compact microstructures and global shapes, which had a good thermal stability and propisochlor could be preserved better in the poly(melamine-formaldehyde) (PMF) microcapsules. These results indicated that the prepared microcapsule had better performance. Additionally, the propisochlor was easily degraded through microorganisms and had a short half-life. The microcapsule suspension of propisochlor hasn’t been researched yet. Therefore, it is significant to prepare microcapsule suspension. The technology of controlled release has effectively prolonged the persistence of active ingredients. More importantly, there is no use of organic solvents in the preparation of microcapsules suspension, which avoided the pollution of solvents to the ecological environment.     

Preparation and characterization of microcapsules containing particulate phosphorescent agent with suspension polymerization

Microcapsules containing particulate phosphorescent agent (strontium aluminate) were prepared by the suspension polymerization method and characterized about a few items such as the mean diameters, the content, the inner structure and the afterglow luminance property. Furthermore, the fundamental experiments were conducted to investigate how the dispersing feature of particulate phosphorescent agent affects the afterglow luminance property. In the experiment, the concentration of oil soluble surfactant, the crosslinking agent species, the added weight of the phosphorescent agent and the pre‐bulk polymerization time were mainly changed stepwise. Afterglow luminance of particulate phosphorescent agent gradually decreased with the afterglow time and considerably decreased because of soaking them in water. Decline of afterglow luminance because of soaking in water could be prevented by microencapsulation. Afterglow luminance of the multicore type microcapsules was found to be higher than that of the core–shell type microcapsules. The content of particulate phosphorescent agent could be increased by performing pre‐bulk polymerization and increasing the concentration of the oil soluble surfactant. Copyright © 2016 John Wiley & Sons, Ltd.     

Preparation and characterization of chitosan/gelatin microcapsules containing triclosan

Chitosan/gelatin (C/G) microcapsules containing triclosan were prepared by a spray drying method. The core material, triclosan (TS) dissolved in octyl salicylate (OS), were emulsified in an aqueous solution containing variable ratios of chitosan/gelatin. The microcapsules were obtained by spray-drying the emulsions. On the scanning electron micrographs, the microcapsules were spherical and exhibited a core and shell morphology. The thermograms of the microcapsules showed no evidence for the melting of TS, suggesting that TS remained dissolved in the cores of the microcapsules and did not exist as a solid crystalline even after dry microcapsules were formed. According to the results of microelectrophoresis study, the point of zero charge of the microcapsules occurred around pH 9.0 and a higher content of chitosan in the microcapsule wall resulted in a higher positive charge of zeta potential. The degree of release of TS and OS from the C/G microcapsules in an aqueous solution of hydroxypropyl-beta-cyclodextrin (HP-beta-CD) was investigated. When chitosan is included in the wall of microcapsules, the degree of release was suppressed. This indicates that chitosan forms a more compact wall than gelatin. On the other hand, TS was released much more than OS. The preferred release of TS is probably due to the higher solubility of TS in the HP-beta-CD solution.     

大麻二酚纳米结构脂质载体的制备及其性质研究

通过高压均质法制备包载大麻二酚(CBD)的纳米结构脂质载体(CBD-NLC),并考察其载药量、包封率、平均粒径、Zeta电位、长期储存稳定性等物理化学性质,筛选获得CBD-NLC最佳配方。在优化条件下制备的CBD-NLC平均粒径为163.7±1.3nm,多分散性指数(PDI)为0.14±0.02,包封率和载药量分别为95.5±1.0%和9.8±0.1%。通过透射电镜、傅里叶变换红外光谱、差示量热扫描、X射线衍射对CBD-NLC进行表征,结果表明,CBD被很好地负载在NLC中,CBD-NLC主要为球形结构。与文献报道相比,纳米结构脂质载体能够包载CBD,具有较好的载药量和包封率,可解决CBD的溶解性及稳定性问题,提高CBD的有效利用度。制备的CBD-NLC可用去离子水以任意比例稀释,具有良好的稳定性,便于其在医药产品中的应用。     

Preparation and characterization of dual stimuli-responsive microcapsules with a superparamagnetic porous membrane and thermo-responsive gates

A novel dual stimuli-responsive microcapsule with a superparamagnetic porous membrane and linear-grafted poly(N-isopropylacrylamide) (PNIPAM) gates in the membrane pores is successfully prepared and characterized. Oleic acid (OA)-modified Fe₃O₄ nanoparticles are embedded into the polyamide microcapsule membrane during interfacial polymerization process, and then plasma-induced grafting polymerization is used to graft PNIPAM into the pores of microcapsule membranes. The prepared microcapsule membranes exhibit time-independent superparamagnetic property with good magnetic-responsive ability, and satisfactory thermo-responsive controlled-release property due to the thermo-responsive swollen/shrunken property of PNIPAM gates grafted on the inner pore surface of the microcapsule membranes.     

Changes in Human Erythrocyte Membrane Exposed to Aqueous and Ethanolic Extracts from Uncaria tomentosa

Uncaria tomentosa (Willd.) DC is a woody climber species originating from South and Central America that has been used in the therapy of asthma, rheumatism, hypertension, and blood purification. Our previous study showed that U. tomentosa extracts altered human erythrocyte shape, which could be due to incorporation of the compounds contained in extracts into the erythrocyte membrane. The aim of the present study was to determine how the compounds contained in U. tomentosa extracts incorporate into the human erythrocyte membrane. The study has assessed the effect of aqueous and ethanolic extracts from leaves and bark of U. tomentosa on the osmotic resistance of the human erythrocyte, the viscosity of erythrocyte interior, and the fluidity of erythrocyte plasma membrane. Human erythrocytes were incubated with the studied extracts in the concentrations of 100, 250, and 500 µg/mL for 2, 5, and 24 h. All extracts tested caused a decrease in erythrocyte membrane fluidity and increased erythrocyte osmotic sensitivity. The ethanolic extracts from the bark and leaves increased viscosity of the erythrocytes. The largest changes in the studied parameters were observed in the cells incubated with bark ethanolic extract. We consider that the compounds from U. tomentosa extracts mainly build into the outer, hydrophilic monolayer of the erythrocyte membrane, thus protecting the erythrocytes against the adverse effects of oxidative stress.     

Determination of Catechin and Epicatechin in an Extract from Uncaria tomentosa Bark by TLC with Chemically Modified Stationary Phases

JPC – Journal of Planar Chromatography – Modern TLC - The conditions used for TLC and HPTLC analysis of catechins have been optimized. Chemically modified stationary phases (HPTLC CN,...     

Preparation and characterization of biodegradable poly(l-lactide)/poly(ethylene glycol) microcapsules containing erythromycin by emulsion solvent evaporation technique

In this work, the producing of a biodegradable poly(l-lactide) (PLA)/poly(ethylene glycol) (PEG) microcapsule by emulsion solvent evaporation method was investigated. The effect of PEG segments added to the PLA microcapsules on the degradation, size distribution, and release behavior was studied. According to the results, PLA/PEG copolymer was more hydrophilic than PLA homopolymer, and with lower glass transition temperature. The surface of PLA/PEG microcapsules was not as smooth as that of PLA microcapsules, the mean diameters of prepared PLA and PLA/PEG microcapsules were 40 and 57 microm, respectively. And spherical forms were observed by the image analyzer and the scanning electron microscope (SEM). Drug release from microcapsules was affected by the properties of PLA/PEG copolymers determined by UV-vis spectra. It was found that the drug release rates of the microcapsules were significantly increased with adding of PEG, which explained by increasing hydrophilic groups.     

铜锰复合低温NH3-SCR整体催化剂的制备及其性能研究

以堇青石蜂窝陶瓷为载体,采用溶胶-凝胶法在其表面不同质量比交替负载Mn-Ce-O/TiO₂和Cu-Ce-O/TiO₂得到多层复合催化剂,用于NH₃选择性催化还原NO。活性测试表明,在两种活性层的共同作用下,复合催化剂有很好的低温活性和很宽的活性温度窗口。以氨气为还原剂,NO浓度为1025mg/m³,空速12600h^-1时,在250℃下NO的转化率就可以达到95%;200℃~300℃下,NO的转化率高于80%。对比实验表明,在此条件下复合催化剂的催化效果明显优于Mn-Ce-O/TiO₂/CC和Cu-Ce-O/TiO₂/CC单活性相催化剂。BET、XRD、XPS及TPR测试表明,催化剂的高活性与其较大的比表面积、较高含量的无定形分布活性组分、锐钛矿型TiO₂、丰富的表面裂纹及良好的氧化还原性能有关。     

Preparation and characterization of mono- and multilayer films of polymerizable 1,2-polybutadiene using the Langmuir-Blodgett technique

The essence of this study is to apply the Langmuir-Blodgett (LB) technique for assembling asymmetric membranes. Accordingly, Langmuir films of a (further) polymerizable polymer, 1,2-polybutadiene (1,2-pbd), were studied and transferred onto different solid supports, such as gold, indium tin oxide (ITO), and silicon. The layers were characterized both at the air/water interface as well as on different substrates using numerous methods including cyclic voltammetry, impedance spectroscopy, spectroscopic ellipsometry, atomic force microscopy, X-ray photoelectron spectroscopy, and reflection-absorption Fourier transform infrared spectroscopy. The Langmuir films were stable at the air-water interface as long as they were not exposed to UV irradiation. The LB films formed disorganized layers, which gradually blocked the permeation of different species with increasing the number of deposited layers. The thickness was ca. 4-7 ? per layer. Irradiating the Langmuir films caused their cross-linking at the air-water interface. Furthermore, we took advantage of the reactivity of the double bond of the LB films on the solid supports and graft polymerized acrylic acid on top of the 1,2-pbd layers. This approach is the basis of the formation of an asymmetric membrane that requires different porosity on both of its sides.     

Preparation and properties of thermosensitive hydrogel microcapsules

Temperature-sensitive hydrophilic gel microcapsules have been newly prepared. That is, poly ( -lysineisopropylamide–terephthalic acid) microcapsules containing water have been obtained by an interfacial polymerization at a water/oil interface between -lysineisopropylamide and terephthaloyldichloride. The microcapsule changes its size between 33 and 35°C. Under 33°C, the microcapsules are fully spherical and can be redispersed in distilled water, while are aggregated above 35°C. The microcapsules, which are observed to show aggregation above 33°C, can be redispersed by decreasing temperature within a few second. The thermosensitive morphological changes of the microcapsules are thus reversible. Also, it has been shown that the permeability of sodium chloride through the microcapsule membrane changes remarkably between 33 and 35°C, while it is kept almost constant independent of temperature between 25 and 33°C or between 35 and 55°C. The permeability of solutes is higher under 33°C than that above 35°C. Such thermosensitive properties result from the fact that the polymer membrane has isopropylamide groups. That is, -lysineisopropylamide has a chemical structure similar to N-isopropylacrylamide, the polymer of which, poly (N-isopropylacrylamide), is a thermosensitive hydrogel having its phase transition temperature around 33°C.     

高芯材含量聚苯乙烯石蜡微胶囊的制备及性能研究

为解决石蜡在使用过程中的一系列问题,以聚苯乙烯为壁材,58~#石蜡为芯材,采用悬浮聚合法制备了高芯材含量的微胶囊.考察了二己烯基苯(DVB)用量、芯壁比、复合改性时共聚单体种类和用量对微胶囊的影响.采用FT-IR、SEM、DSC、TG表征了微胶囊的结构、形貌、储热性能及热稳定性能.实验结果表明,DVB用量11%、芯壁比3∶1制备的微胶囊大小均匀,无团聚现象;交联改性的同时,加入20%MA单体共聚改性制备的微胶囊形貌好,热稳定性最佳,微胶囊中石蜡含量为91.7%时储热性能最优.     

Preparation of glucose-sensitive microcapsules with a porous membrane and functional gates

A glucose-sensitive microcapsule with a porous membrane and with linear-grafted polyacrylic acid (PAAC) chains and covalently bound glucose oxidase (GOD) enzymes in the membrane pores acting as functional gates was successfully prepared. Polyamide microcapsules with a porous membrane were prepared by interfacial polymerization, PAAC chains were grafted into the pores of the microcapsule membrane by plasma-graft pore-filling polymerization, and GOD enzymes were immobilized onto the PAAC-grafted microcapsules by a carbodiimide method. The release rates of model drug solutes from the fabricated microcapsules were significantly sensitive to the existence of glucose in the environmental solution. In solution, the release rate of either sodium chloride or VB(12) molecules from the microcapsules was low but increased dramatically in the presence of 0.2mol/L glucose. The prepared PAAC-grafted and GOD-immobilized microcapsules showed a reversible glucose-sensitive release characteristic. The proposed microcapsules provide a new mode for injection-type self-regulated drug delivery systems having the capability of adapting the release rate of drugs such as insulin in response to changes in glucose concentration, which is highly attractive for diabetes therapy.     

Preparation and characterization of metronidazole‐loaded chitosan nanoparticles for drug delivery application

This study describes the preparation of mucoadhesive chitosan nanoparticles containing metronidazole (MZ) intended for colon‐specific delivery. The chitosan nanoparticles were prepared by the ionic gelation method and their in vitro properties were studied. The release profiles of MZ from the nanoparticles were determined by UV–Vis absorption measurement at λ_max 278 nm. Scanning electron microscopy was used for morphology observation. The nanoparticles exhibited mucoadhesive properties, which diminished with increasing drug content. The nanoparticles with a particle size range between 200 and 300 nm exhibited excellent mucoadhesive properties. The results show that the formulated nanoparticles have succeeded in controlling the release of MZ over a 12‐hr period. In conclusion, the release of MZ was found to be dependent upon the composition of the nanoparticles, the ratio of the components and possible particle size, as well as bioadhesive ability. Copyright © 2008 John Wiley & Sons, Ltd.     

Preparation and characterization of bio-organoclays using nonionic surfactant

The present study was aimed at the preparation and characterization of tailor made hybrid materials, whose peculiar hosting capability could be exploited in biotechnological applications. With this purpose, the modification of K10 montmorillonite by intercalation of Tween 20 surfactant, was accomplished. The influence of two internal parameters, namely pH and surfactant/clay ratio, on the surfactant uptake ability by clay was investigated. The adsorption mechanism was elucidated on the basis of complementary kinetic and equilibrium studies and, then, corroborated by the useful information provided by the FT-IR, TGA and XRD characterization. The gathered results allow to draw the conclusion that the whole surfactant uptake is the result of two contributions: a site-limiting component, governed by negative cooperative interactions, which takes into account for the Tween 20 adsorption onto the pristine clay, and a non-specific linear partitioning component, related to the adsorption of the surfactant onto the in situ prepared organo-clay. Moreover, at strongly acidic pH, a mechanism consisting of two-steps pathways involving two non-energetically equivalent binding sites of the clay surfaces, was proposed, while, on increasing the pH, the clay interlayer becomes the sole available site for the surfactant uptake. In the light of the interesting results obtained, among the plethora of potential biotechnological applications, the present paper suggests the exploitation of the prepared organo-clays to improve the performance of either hydrophilic or hydrophobic drug carriers systems.     

Preparation of chitosan scaffolds loaded with dexamethasone for tissue engineering applications using supercritical fluid technology

Supercritical fluid impregnation was tested to prepare a new scaffold loaded with a bioactive compound. Dexamethasone is used in osteogenic media to direct the differentiation of stem cells towards the osteogenic lineage. Dexamethasone was impregnated in chitosan scaffolds at different operating conditions, in order to optimize the impregnation process. Pressure and temperature affect the carbon dioxide density and influence the swelling of the polymer and the drug solubility in the fluid phase, therefore these are two important parameters that were studied in this work. Chitosan sponges prepared by freeze drying were impregnated with the active compound at pressures from 8.0 up to 14.0 MPa and temperatures from 35 up to 55 °C. The effect of the impregnation contact time (3 h and 6 h) was also evaluated. From the experiments performed we can conclude that the yield of impregnation is lower when increasing pressure and temperature. The contact time will mainly influence the amount of drug impregnated in the scaffold and for higher contact times the impregnation yield is also higher. Scanning electron microscopy shows particles of dexamethasone in the bulk of the scaffold, which confirms the feasibility of the supercritical fluid impregnation technology for the preparation of delivery devices. The loading capacity of the scaffolds was determined by spectroscopic analysis and the highest loading was achieved for the experiments performed at 8.0 MPa and 35 °C. Furthermore, in vitro drug release studies were carried out and the results show that dexamethasone was sustainably released. Supercritical fluid impregnation proved to be feasible for the preparation of a drug delivery system for bone tissue engineering purposes.