共查询到19条相似文献,搜索用时 46 毫秒
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目的:研究PLGA微球复合明胶支架对蛋白药物的释放影响。方法:将模型蛋白BSA通过复乳法制备成缓释PLGA微球,然后将微球埋置于明胶支架中,形成担载蛋白的PLGA微球复合明胶组织工程支架。考察复合支架体外蛋白释放行为,并用MicroBCA法定量测定释放的BSA量,采用β-半乳糖苷酶催化ONPG的方法检测制备前后蛋白的活性,并与不含PLGA微球直接担载蛋白的支架做对照。结果:PLGA微球复合支架蛋白的包封率能达到73.2%,其中第一天释放20%,对蛋白活性的保持达到70%以上。结论:微球复合明胶支架可以改善一般组织工程支架蛋白药物的突释,提高蛋白药物在制剂,贮存,释放过程中的稳定性。 相似文献
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目的:研究担载碱性成纤维细胞生长因子(b-FGF)微球复合明胶支架的外形特征、孔径、孔隙率及体外释放动力学,以期构建具有缓释功能、高孔隙率的担载细胞因子的新型复合明胶支架。方法:本文利用冷冻相分离法和S/O/W法先将b-FGF水溶液包裹于PLGA微球中,然后埋置于明胶溶液中制备为多孔复合明胶支架。分别对微球的形态和复合明胶支架的基本形态、孔径、孔隙率进行表征,通过Elisa法测定b-FGF在复合明胶支架中的体外释放行为。结果:制备成形态良好的三维复合明胶支架,其孔隙率为82.90%±1.45%,孔径范围为150~300μm,复合明胶支架中b-FGF在体外缓慢释放20余天。结论:担载蛋白微球复合明胶支架不仅满足组织工程支架的要求,还能有效缓释细胞因子,为细胞和组织生长提供良好的微环境,为进一步应用于组织工程领域提供了可能。 相似文献
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目的:研究包裹在PLGA微球中的多糖纳米颗粒在保护蛋白稳定性和改善药物体外释放行为方面的作用。方法:将模型药物BSA用低温诱导相分离方法担载于多糖纳米颗粒之中,后将其用水包油包固复乳法包裹于PLGA微球内。应用体积排阻色谱(SEC-HPLC)和红外色谱(FTIR)表征蛋白的稳定性,而且也研究了样品的体外释放行为。结果:这种方法能够很好的保护蛋白的稳定性,保持蛋白结构在制备过程中不会改变,而且改善了体外释放行为,减少了突释。结论:多糖纳米颗粒结合PLGA微球能够提供一种有效的解决蛋白控释的途径。 相似文献
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蔡云鹏马柳青张文君王兆敏张袁魁朱云婷袁伟恩 《现代生物医学进展》2012,12(11):2158-2159
采用S/O/W和W/O/W法,和不同的苄丝肼载药量制作缓释微球,用HPLC考察其释放曲线、突释情况和包封率,实验表明S/O/W法制作的苄丝肼微球缓释效果更好,达到了6d,包封率能达到70%以上,突释情况可以接受,苄丝肼载药量低的微球能达到更高的包封率。 相似文献
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目的:研究装载于不同分子量的PLGA中的5-氟尿嘧啶微球的制备方法及其在体外条件下的缓释行为。方法:以水包油包固复乳法将5-氟尿嘧啶包裹在高分子聚乳酸-聚羟基乙酸共聚物(PLGA)中,形成缓释微球,考察其大小,外观,包封率等理化性质,以紫外分光光度法为检测方法研究其体外释放行为。结果:经扫描电子显微镜观察,所制备的微球形态完整,大小较均匀。具有一定得包封率和载药量,体外释放研究表明其处方1和处方2的缓释时间为8天和23天。结论:以水包油包固复乳法制备的PLGA 5-氟尿嘧啶微球能够达到缓释的目的。 相似文献
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目的:研究装载于不同分子量的PLGA中的5-氟尿嘧啶微球的制备方法及其在体外条件下的缓释行为。方法:以水包油包固复乳法将5-氟尿嘧啶包裹在高分子聚乳酸-聚羟基乙酸共聚物(PLGA)中,形成缓释微球,考察其大小,外观,包封率等理化性质,以紫外分光光度法为检测方法研究其体外释放行为。结果:经扫描电子显微镜观察,所制备的微球形态完整,大小较均匀。具有一定得包封率和载药量,体外释放研究表明其处方1和处方2的缓释时间为8天和23天。结论:以水包油包固复乳法制备的PLGA 5-氟尿嘧啶微球能够达到缓释的目的。 相似文献
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萘普生缓释微球制备工艺及性能研究 总被引:2,自引:0,他引:2
本文利用壳聚糖和海藻酸钠通过复凝聚法将萘普生制成微球,研究成球的最佳制备工艺条件及载药微球性能,制备了可生物相容,自然降解无毒的载药微球。实验中,以微球的药物包封率为制备工艺优化指标,通过正交实验得出微球的最佳制备工艺条件为:壳聚糖浓度∶海藻酸钠浓度为1:1,pH值为4.0,搅拌速度为300rpm,反应温度为35℃。以最佳制备工艺条件制备的含药微球,重现性好,工艺稳定,同时体外溶出实验表明,该微球具有较好的缓释作用。 相似文献
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A novel method is described for the preparation of sterile submicron unilamellar liposomes. The method is based on the lyophilization of double emulsions containing disaccharides as lyoprotectants in both the inner and outer aqueous phase. Using various phospholipids or mixtures of lipids as emulsifiers, the double emulsions can be prepared by a two-step emulsification, including hydrophilic agents in the inner aqueous phase or lipophilic agents in the oil phase. Then, the double emulsions are lyophilized after sterilization by passing them through a 0.22-μm pore filter. Rehydration of the lyophilized products results in liposomes with a relatively high encapsulation efficiency (for calcein, 87%; 5-fluorouracil, 19%; flurbiprofen, 93%) and a size below 200 nm measured by the dynamic light scattering technique (DLS) and the atomic force microscopy (AFM). The liposomes were found to be unilamellar from freeze-fracture electron micrographs and X-ray diffraction patterns. In addition, the liposomes can be reconstituted just before use by rehydration of the lyophilized products which are relatively stable. Thus, this reproducible and simple technique can be used to prepare sterilized, submicron unilamellar liposomes with a relatively high encapsulation efficiency, and excellent stability during long-term storage. 相似文献
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The stability, in vitro release, and in vitro cell transfection efficiency of plasmid DNA (pDNA) poly (D,L.-lactide-co-glycolide)
(PLGA) microsphere formulations were investigated. PLGA microspheres containing free and polylysine (PLL)-complexed pDNA were
prepared by a water-oil-water solvent extraction/evaporation technique. Encapsulation enhanced the retention of the supereoiled
structure of pDNA as determined by gel electrophoresis. PLL complexation of pDNA prior to encapsulation increased both the
stability of the supercoiled form and the encapsulation efficiency. Free pDNA was completely degraded after exposure to DNase
while encapsulation protected the pDNA from enzymatic degradation. Rapid initial in vitro release of pDNA was obtained from
microspheres containing free pDNA. while the release from microspheres containing PLL-complexed pDNA was sustained for more
than 42 days. Bioactivity of encapsulated pDNA determined by in vitro cell transfection using Chinese hamster ovary cells
(CHO) showed that the bioactivity of encapsulated pDNA was retained in both formulations but to a greater extent with PLL-complexed
pDNA microspheres. These results demonstrated that PLGA microspheres could be used to formulate a controlledrelease delivery
system for pDNA that can protect the pDNA from DNase degradation without loss of functional activity. 相似文献
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This study investigated the dynamic effect of the emulsification process on emulsion droplet size in manufacturing microspheres using ethyl acetate as an organic solvent. A dispersed phase consisting of poly(lactide-co-glycolide) and ethyl acetate was emulsified in a poly(vinyl alcohol) aqueous solution for a predetermined time ranging from 2 to 9, 16, 23, 30, 40, 50, or 60 minutes. Ethyl acetate was then quickly extracted to transform emulsion droplets into solidified microspheres, and their size distribution was determined. This experimental design allowed quantification of the size distribution of emulsion droplets over the course of emulsification. When emulsification time was extended from 2 to 60 minutes, the emulsion droplets decreased in size from 98.1 to 50.3 microm and their surface area increased from 0.07 to 0.29 m2/g. Overall, prolonging emulsification time up to 60 minutes resulted in the progressive evolution of smaller emulsion droplets (1-60 microm) and the simultaneous disappearance of larger ones (> 81 microm). Increases in the total number of microspheres and their surface area were caused mainly by continuous fragmentation of emulsion droplets before ethyl acetate extraction. The increase in the smaller microsphere population might also be due in part to shrinkage of microspheres. These results show that the onset of ethyl acetate extraction influenced the kinetics of the breakup and formation of emulsion droplets, thereby affecting to a great extent the size distribution of microspheres. 相似文献
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Suspension-feeders are discriminate feeders, selecting prey by size, shape and food quality, this discriminate feeding behaviour has important consequences for the modelling of growth rates, population dynamics and ecosystem change. When given natural seston, the large pinnid bivalve Atrina zelandica (Gray), fed on picophytoplankton (< 2 μm), larger phytoplankton (2-270 μm) and microzooplankton, but preferentially selected algal species within the 2-20 μm size fraction. Selection for ingestion was based on food quality, with morphotype, carbon content and potential toxicity also being important. Microzooplankton were readily ingested and represented 48% of the available diet in terms of carbon indicating they play an important role in the diet of Atrina. Mussels were subsequently fed a selected cultured algal diet consisting of three different types of 2-20 μm sized phytoplankton to assess differences in prey selection and grazing efficiency. When high inorganic suspended sediment concentrations of 500 mg/l were added in addition to the cultured algal diet this caused Atrina to increase filtration and rejection rates and reduced the efficiency of Atrina to select food in all cases. More importantly, there were changes in the species preferentially selected for ingestion. Our results suggest that as well as reducing feeding efficiency increased suspended sediment concentrations may affect prey selection and therefore have consequences for benthic-pelagic coupling beyond that of reduced removal and deposition rates. 相似文献
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Micro- and nanoparticulate drug-delivery systems (DDSs) play a significant role in formulation sciences. Most particulate DDSs are scaffold-free, although some particles are encapsulated inside other biomaterials for controlled release. Despite rapid progress in recent years, challenges still remain in controlling the homogenicity of micro-/nanoparticles, especially for two crucial factors in particulate DDSs: the size and shape of the particles. Recent approaches make use of microfabrication techniques to generate micro-/nanoparticles with highly controllable architectures free of scaffolds. This review presents an overview of a burgeoning field of DDSs, which can potentially overcome some drawbacks of conventional techniques for particle fabrication and offer better control of particulate DDSs. 相似文献
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Hyung-Jun Koo 《Inorganica chimica acta》2008,361(3):677-683
Effect of scattering particle size on light scattering efficiency in dye-sensitized solar cell has been investigated with a FTO/semitransparent nano-TiO2 layer (main-layer)/scattering layer (overlayer) structure, where two different rutile TiO2 particles of 0.3 μm (G1) and 0.5 μm (G2) were used for a scattering overlayer and 20-nm anatase particle for nano-TiO2 main-layer. The conversion efficiency of 7.55% for the 7 μm-thick main-layer film is improved to 8.94% and 8.78% when G1 and G2 particulate overlayers are introduced, respectively, corresponding to 18.4% and 16.3% increments. While the conversion efficiency of the 14 μm-thick main-layer is slightly improved from 8.60% to 9.09% and 9.15% upon depositing G1 and G2 particulate overlayers, respectively. Significant improvement and strong size-dependence upon deposition of scattering overlayer on the relatively thinner TiO2 main-layer film are associated with the quantity and wavelength of transmitted light and the difference in reflectivity of G1 and G2 scattering particles. 相似文献
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Yong-liang Zhang Xiao-hui Ren Song-cai Liu Jian-wei Dai Lin-lin Hao Qing-yan Jiang 《Animal biotechnology》2013,24(3):163-175
Biodegradable nanospheres or microspheres have been widely used as a sustained release system for the delivery of bioagents. In the present study, injectable sustained-release growth hormone-releasing factor (GRF) (1–32) microspheres were prepared by a double emulsion-in liquid evaporation process using biodegradable polylactic-co-glycolic acid (PLGA) as the carrier. The entrapment efficiency was 89.79% and the mean particle size was 4.41 μm. The microspheres were injected into mouse tibialis muscle. After 30 days, mice injected with GRF (1–32) microspheres (group I) gained significantly more weight than any other treatment group, including mice injected with the naked plasmid (group II) (10.26 ± 0.13 vs. 9.09 ± 0.56; P < 0.05), a mixture of microspheres and plasmid (group III) (10.26 ± 0.13 vs. 8.57 ± 0.02; P < 0.05), or saline (IV) (10.26 ± 0.13 vs. 6.47 ± 0.26; P < 0.05). In addition, mice treated with the GRF (1–32) microspheres exhibited the highest expression levels of GRF as detected by PCR, RT-PCR, and ELISA (mean 2.56 ± 0.40, P < 0.05, overall comparison of treatment with groups II, III, and IV). Additionally, rabbits were injected in the tibialis muscle with the same treatments described above. After 30 days, the group treated with GRF (1–32) microspheres gained the most weight. At day 30 postinjection, weight gain in group I was 63.93% higher than group II (plasmid) (877.10 ± 24.42 vs. 535.05 ± 26.38; P < 0.05), 108.59% higher than group III (blank MS) (877.10 ± 24.42 vs. 420.50 ± 19.39; P < 0.05), and 93.94% higher than group IV (saline) (877.10 ± 24.42 vs. 452.25 ± 27.38; P < 0.05). Furthermore, IGF-1 levels in the serum from GRF microsphere-treated group were elevated relative to all other groups. The present results suggest that encapsulation of GRF with PLGA increases GRF gene expression in muscle after local plasmid delivery, and stimulates significantly more weight gain than delivery of the naked plasmid alone. 相似文献
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Yunxia Sang Kui Xie Yubin Mu Yun Lei Baohong Zhang Sheng Xiong Yantian Chen Nianmin Qi 《Cytotechnology》2015,67(1):67-74
Transfection efficiency is directly associated with the expression level and quantity of recombinant protein after the transient transfection of animal cells. The transfection process can be influenced by many still-unknown factors, so it is valuable to study the precise mechanism and explore these factors in gene delivery. Polyethylenimine (PEI) is considered to have high transfection efficiency and endosome-disrupting capacity. Here we aimed to investigate optimal conditions for transfection efficiency by setting different parameters, including salt ion concentration, DNA/PEI ratio, and incubation time. We examined the PEI–DNA particle size using a Malvern particle size analyzer and assessed the transfection efficiency using flow cytometry in Chinese hamster ovary-S cells. Salt ions, higher amounts of PEI tended to improve the aggregation of PEI–DNA particles and the particle size of PEI–DNA complexes and the transfection efficiency were increased. Besides, the particle size was also found to benefit from longer incubation time. However, the transfection efficiency increased to maximum of 68.92 % at an incubation time of 10 min, but decreased significantly thereafter to 23.71 %, when incubating for 120 min (P < 0.05). Besides, PEI–DNA complexes formed in salt-free condition were unstable. Our results suggest DNA and PEI incubated in 300 mM NaCl at a ratio of 1:4 for 10 min could achieve the optimal transfection efficiency. Our results might provide guidance for the optimization of transfection efficiency and the industrial production of recombinant proteins. 相似文献