Influence of Preparation Factors on the Sustained Release of Nifedipine from Eudragit RL/RS Microspheres

Sustained release Eudragit RL/RS microspheres encapsulating nifedipine were prepared using the acetone/liquid paraffin emulsion solvent evaporation method. The influence of different preparation factors on release of the drug in vitro was investigated. The release rate of nifedipine from the microspheres increased with increasing Eudragit RL/RS ratio and stirring rate during the preparation, and with decreasing the polymer concentration of internal phase and microsphere size. It was found that a linear relationship existed between the microsphere size and the time of 50% drug release. The drug release rate increased with increasing nifedipine content from 4.2 to 16.7% and was more rapid than the dissolution rate of pure nifedipine particles. However, the release rate of the microspheres with 26.6% drug content decreased significantly and was slower than the dissolution rate of pure drug particles. This was attributed mainly to the nifedipine dispersion state in the microspheres as confirmed by the differential thermal analysis and X ray diffraction study, which showed that nifedipine was present in an amorphous or molecular state in the microspheres with 4.2, 9.4 and 16.7% drug, whereas partly in the crystalline state in the microspheres with 26.6% drug. The amounts released for less than 70% nifedipine can be fitted to Higuchi square root of time model, independent of polymer ratio, drug content and microsphere size.

Eudragit RS 30D修饰的冰片缓释微囊的制备与评价

目的筛选制备海藻酸钠-丙烯酸树脂冰片微囊(SA/RS 30D/BN MCs)的最佳工艺,并对微囊进行相关表征。方法采用复凝聚法制备SA/RS 30D/BN MCs,以包封率和载药量为考察指标,采用单因素法考察冰片、可溶性淀粉、Tween 80、海藻酸钠(SA)溶液、Eudragit RS 30D和CaCl2溶液的质量浓度对微囊质量的影响;在此基础上,以包封率为考察指标,通过L(934)正交试验筛选最佳处方,并对微囊的外观形态、理化性质、体外释放情况及初步稳定性进行评价。结果SA/RS 30D/BN MCs最佳处方为:冰片、可溶性淀粉、Tween 80、SA溶液、Eudragit RS 30D、CaCl2溶液的质量浓度分别为3.33%、0.17%、0.17%、1.00%、5.00%、1.50%,微囊的平均包封率为(94.18±0.47)%,平均载药量为(30.42±0.17)%,在初步稳定性试验中微囊中冰片保留率高达92.2%,表征结果表明成功制备了具有缓释性能的冰片微囊。结论采用复凝聚法以海藻酸钠、Eudragit RS 30D为复合囊材制备的冰片微囊可以显著提高冰片的稳定性且具有一定的缓释效果。

氟比洛芬聚丙烯酸树脂RL/RS缓释微球的制备

目的观察溶剂挥发法制备的氟比洛芬聚丙烯酸树脂RL/RS微球的体外释药特性。方法以氟比洛芬为主药,司盘-80为乳化剂,硬脂酸镁为抗黏剂,丙酮-液状石蜡挥发法制备氟比洛芬微球。通过紫外分光光度仪、电镜扫描及差热分析研究微球的性质,并于pH 7.2的磷酸盐缓冲溶液中测试体外释放。结果制备的微球为白色、流动性好的粉末;用显微镜观察微球为圆形的球体,直径为50～190μm;差热分析表明,药物具有稳定性且药物与聚合物间不存在反应;体外释放度测试显示,微球能稳定地在pH 7.2磷酸盐缓冲溶液中释放,药物4 h累积释放量约50%,12 h不少于80%。结论溶剂挥发法制备的微球工艺稳定,得到的氟比洛芬聚丙烯酸树脂RL/RS微球呈现缓释特性,微球体外释放过程符合Higuchi方程。

阳离子聚合物Eudragit RL对电解质的敏感性及其对不同药物释放的影响

研究聚合物ＥｕｄｒａｇｉｔＲＬ在电解质溶液中的膨胀行为，以及介质组成及聚合物膨胀度对硝苯地平、氯苯那敏（扑尔敏）和吲哚美辛从聚合物骨架中释放的影响。用转篮法及浆板法测定微球和药膜的释放度。结果表明ＥｕｄｒａｇｉｔＲＬ的膨胀度随电解质浓度增加而下降，且受电解质种类的影响显著。硝苯地平和氯苯那敏从聚合物骨架中的释放速率与聚合物膨胀行为间呈良好正相关，但吲哚美辛从聚合物中的释放速率受聚合物膨胀和离子对药物的置换两种因素同时控制。提示ＥｕｄｒａｇｉｔＲＬ骨架中药物的释放方式受介质组成和药物种类的影响。

尤特奇RS-PO/RL-PO制备缓释片的工艺研究

比较尤特奇RS-PO和RL-PO的缓释性能,为更好地应用提供依据。以茶碱为模型药物,选用尤特奇RS-PO,RL-PO为缓释材料,制备了茶碱骨架缓释片和包衣缓释片,通过体外释放度试验考察尤特奇RS-PO和RL-PO的缓释性能。结果表明,RS-PO的阻滞作用较强,不宜单独作为骨架缓释材料使用;RL-PO的缓释作用强,对药物释放的控制作用好,是理想的骨架缓释材料。RS-PO衣膜的成型性、韧性均不理想,对药物的渗透作用极差,不宜用做包衣材料;RL-PO衣膜的成型性、塑性及韧性均较好,释药过程衣膜始终保持完整,对药物渗透性较好,可作为渗透泵制剂的缓释包衣材料。

海藻酸钠改善Eudragit RS 30 D游离膜老化及其机制研究

目的考察海藻酸钠(SA)改善尤特奇RS 30 D(Eudragit RS 30 D)包衣膜的性质并验证其机制。方法采用zeta电位、热重分析仪(TGA)、差示扫描量热仪(DSC)等表征手段对Eudragit RS 30 D-SA游离膜性质进行了考察,通过Eudragit RS 30 D-SA游离膜老化前后吸水溶胀性、水蒸气透过率、机械性能进行初步验证。结果Zeta电位显示加入SA溶液,Eudragit RS 30 D水分散体的zeta电位逐渐降低,且TGA、DSC等表征结果显示,Eudragit RS 30 D-SA游离膜的含水量明显高于Eudragit RS 30 D游离膜。Eudragit RS 30 D与SA间的静电相互作用和SA的“保水”能力是SA解决丙烯酸树脂类水分散体老化问题的重要机制。Eudragit RS 30 D-SA包衣膜在多个方面具备一定优势。结论SA可以改善Eudragit RS 30 D游离膜的性质,改善Eudragit RS 30 D游离膜老化问题,使其在多个方面均具有一定优势。

索拉非尼-Eudragit RS纳米粒的制备及理化性质研究

目的:制备索拉非尼-Eudragit RS纳米粒(sorafenib-Eudragit RS nanoparticles,S-E NPs),优选制备处方及初步探索其理化性质。方法:溶剂-非溶剂法制备索拉非尼-Eudragit RS纳米粒,采用单因素试验研究溶剂、稳定剂类型、载体比例、有机相水相比例对纳米粒理化性质的影响。通过粒径和Zeta电位、形貌观察、体外释药考察对其进行质量评价。结果:优选处方制备的索拉非尼-Eudragit RS纳米粒的平均粒径为(86.72±3.71)nm,多相分散系数(PDI)为(0.200±0.032),Zeta电位为(36.6±0.3)m V,纳米粒呈球形且分布均匀;体外释放符合Weibull模型(r=0.966 9)。结论:溶剂-非溶剂法适用于索拉非尼-Eudragit RS纳米粒的制备,所制备的纳米粒粒径较小,分布均匀,形态规则完整,具有明显缓释作用。

氟比洛芬聚丙烯酸树脂RL/RS固体分散体的制备

目的制备氟比洛芬固体分散体并考察其体外释药特性。方法以氟比洛芬为主药,分别以聚丙烯酸树脂Eudragit RL、RS及RL/RS混合物为载体,卵磷脂为乳化剂,以溶剂法制备固体分散体。以体外溶出半衰期t1/2为指标,优选固体分散体的最佳制备方法。结果氟比洛芬固体分散体的最佳处方比例为:药物∶载体=1∶9,RL∶RS=2∶1,卵磷脂浓度为0.2%。固体分散体体外溶出测定采用小杯法,测定波长为247 nm,分别采用紫外分光光度法和差示扫描热量法进行定量、定性分析。结论制备所得氟比洛芬固体分散体体外溶出缓慢、平稳、完全,达到提高生物利用度、12 h给药1次的缓释设计目的,可进一步制成其他剂型。

Role of clove oil in solvent exchange-induced doxycycline hyclate-loaded Eudragit RS in situ forming gel

Solvent exchange induced in situ forming gel(ISG) is the promising drug delivery system for periodontitis treatment owing to the prospect of maintaining an effective high drug level in the gingival crevicular fluid. In the present study, the influence of clove oil(CO) on the characteristics of doxycycline hyclate(DH)-loaded ISG comprising Eudragit RS(ERS) was investigated including viscosity/rheology, syringeability, in vitro gel formation/drug release, matrix formation/solvent diffusion and antimicrobial activities. CO could dissolve ERS and increase the viscosity of ISG and its hydrophobicity could also retard the diffusion of solvent and hinder the drug diffusion; thus, the minimization of burst effect and sustained drug release were achieved effectively. All the prepared ISGs comprising CO could expel through the 27-gauge needle for administration by injection and transform into matrix depot after exposure to the simulated gingival crevicular fluid. The antimicrobial activities against Staphylococcus aureus, Escherichia coli, Streptococcus mutans and Porphyromonas gingivalis were increased when the ratio of CO and N-methyl pyrrolidone(NMP) was decreased from 1:1 to 1:10 owing to higher diffusion of DH except that for C. albicans was increased as CO amount was higher.Therefore, CO could minimize the burst while prolonging the drug release of DH-loaded ERS ISG for use as a local drug delivery system for periodontitis treatment.

药用渗透型树脂尤特奇RL合成工艺研究

甲基丙烯酸甲酯、丙烯酸乙酯、甲基丙烯酸氯化三甲胺基乙酯为原料,偶氮二异丁酸二甲酯为引发剂,采用分段聚合的方法,制备药用渗透型丙烯酸树脂尤特奇RL。以结构表征和理化性能试验,考察聚合方法的可行性。

Optimization of variables and assessment of in-vitro and in-vivo antihyperlipidemic activity of Eudragit RS nanoparticles containing simvastatin

Simvastatin, a BCS class II drug, is associated with poor aqueous solubility, first-pass metabolism and short half-life. In the present work, nanoparticles were prepared and evaluated. Optimization of formulation and process parameters was done through the use of independent and dependent variables. Preliminary studies were done to determine suitable range of the concentration of Eudragit polymer (10%–30%) and the ratio of drug to polymer (1:1 to 1:5) for the formation of nanoparticles by emulsification and a solvent evaporation technique. Results revealed that the mean size of nanoparticles was affected by stirring speed from 5000 RPM, 8000 RPM, and 12000 RPM. The results of increase in association efficiency and percent yield with increase in amount of drug from 100 mg, 150 mg, and 200 mg in selected range were observed. In-vitro release studies showed that two formulations possess highest initial burst and slow sustained drug release. There was 2.93-fold decrease in total cholesterol and 3.27-fold increases in triglyceride level during in-vivo study.

海藻酸钠-丙烯酸树脂水分散体构建替米考星微囊的工艺研究

为了制备缓释、掩味的替米考星(TMS)微囊,本试验以海藻酸钠(SA)和丙烯酸树脂水分散体(Eudragit RS 30 D)为复合囊材,采用复凝聚法制备了替米考星微囊(TMS MCs),以载药量和包封率作为评价指标,通过单因素考察和正交试验筛选出制备TMS MCs的最佳工艺,并检测其表征、体外释放度和初步稳定性。结果显示,TMS MCs的最佳工艺为可溶性淀粉浓度为0.34%,Eudragit RS 30 D浓度为6.0%,SA浓度为1.0%,TMS浓度为5.0%,CaCl_(2)浓度为1.0%,CaCl_(2)体积为30 mL;以最佳工艺所制得TMS MCs的平均载药量为(28.54±1.89)%,平均包封率为(86.91±0.79)%,平均粒径为(1.40±0.11)mm,扫描电子显微镜(SEM)下可观察其为圆整的球状颗粒物;体外释放度试验结果显示,TMS MCs在纯水、pH 1.2盐酸溶液(人工胃液)、pH 4.5醋酸盐缓冲液和pH 6.8磷酸盐缓冲液(人工肠液)4种释放介质中均展现出一定的缓释效果;TMS MCs室温放置6个月,微囊中TMS的保留率为(92.54±0.67)%。结果表明,以最佳工艺制得的TMS MCs的载药量、包封率和稳定性均较优,并且具有掩味和缓释作用,其制备工艺简便,有利于工业化生产。

星点设计-效应面法在酒石酸美托洛尔缓释微丸处方优化中的应用

目的本研究以Eudragit RS30D和Eudragit RL30D的混合物为包衣材料,制备日服2次的酒石酸美托洛尔包衣缓释微丸,并将星点设计-效应面法应用于处方筛选过程中。方法以微丸在1,4,8h的释放度作为考察指标,将Eudragit RS30D与Eudragit RL30D的比例和包衣增重为自变量,采用星点设计-效应面优化法,对缓释包衣处方进行优化。结果经F2(相似因子)检验,3批自制样品的释药曲线与理论释药曲线基本一致。结论星点设计-效应面优化法可用于酒石酸美托洛尔微丸缓释包衣处方的优化,所建模型具有较好的预测能力和实用性。

不同制备条件对硝苯啶缓释微球粒径大小和药物含量的影响

用液中干燥法制备硝苯啶的丙烯酸树脂（ＥｕｄｒａｇｉｔＲＬ和ＲＳ）缓释微球，考察了不同制备条件对微球粒径与药物包封率的影响。随搅拌速度增加相内相聚合物浓度减小，微球的粒径减小，投药量和ＥｕｄｒａｇｉｔＲＬ／ＲＳ之比对粒径无显著影响。不同制备条件对微球药物包封率的影响程度较小。

含甘草酸效应组分微丸的制备及其性质考察

目的:应用挤出滚圆法制备含甘草酸效应组分速释微丸,采用Eudragit RS 100与Eudragi RL 1002种包衣材料,制备含甘草酸效应组分缓释微丸。方法:采用Mini Glatt流化床底喷包衣法制备缓释微丸,对其包衣工艺及处方进行单因素考察,评价微丸的粉体学性质和体外释放行为。结果:当Eudragit RS 100与Eudragit RL 100的质量比为4∶l,聚合物包衣增重为5%,增塑剂用量为15%时,药物具有明显的缓释作用,体外释放曲线符合Pep-pas和Higuchi方程。结论:通过调整Eudragit RS 100与Eudragit RL 100的比例,或提高聚合物包衣增重等手段,能使含甘草酸效应组分缓释微丸具备较理想的缓释效果。

酒石酸美托洛尔缓释微丸的制备及处方因素考察

目的:选用Eudragit RS 30 D与Eudragit RL 30 D两种包衣材料,制备日服2次的酒石酸美托洛尔缓释微丸,并对其处方因素进行考察。方法:采用Glatt流化床底喷溶液上药法制备载药微丸,考察缓释聚合物Eud- ragit RS 30D与Eudragit RL 30D的不同质量配比(2:3,7:3和9:1)、聚合物包衣增重(10%,20%和30%)以及增塑剂用量(10%,20%和40%)和放置时间对药物释放的影响。结果:当Eudragit RS 30D与Eudragit RL 30D的质量比为9:1,聚合物包衣增重为20%,增塑剂用量为20%时,药物的释放行为符合中国药典对缓释制剂释放度的相关规定。结论:通过调整Eudragit RS 30D与Eudragit RL 30D之间的比例,或提高聚合物包衣增重等手段,能使酒石酸美托洛尔载药微丸具备较理想的缓释效果。

控释包衣膜中增塑剂含量的HPLC测定

建立了高效液相色谱法测定控释包衣膜中增塑剂含量。采用 Hypersil C1 8柱 ,甲醇为流动相 ,检测波长为 2 17和 2 6 0 nm,分别测定柠檬酸三乙酯 (TEC)、柠檬酸三丁酯 (TBC)、三醋酸甘油酯 (TR)、邻苯二甲酸二甲酯 (DMP)、邻苯二甲酸二乙酯 (DEP)、邻苯二甲酸二丁酯 (DBP)的含量。其中 DMP、DEP和 DBP在 5～ 87μg/ ml,TEC、TBC、TR在 130～ 2 30 0μg/ ml浓度范围内与峰高呈良好的线性关系 (r=0 .9999) ,方法的日内及日间精密度。

豆腐果素缓释微丸包衣工艺的研究

分别以Surelease、Eudragit RS30D/RL30D为包衣材料,制备豆腐果素缓释微丸,筛选包衣工艺的优化参数。结果表明,用Surelease、Eudragit两种包衣材料均可得到在12h内缓慢释放的微丸,后者有近1h的时滞。

口服用硝苯地平缓释微球的研究

用丙酮／液状石蜡乳剂一溶剂挥发法制备硝苯地平一ＥｕｄｒａｇｉｔＲＬ缓释微球。微球中药物以非晶态分散于ＥｕｄｒａｇｉｔＲＬ载体中。微球体外释药过程符合Ｈｉｇｕｃｈｉ方程。在不同条件下存贮６个月内微球的药物含量、药物分散状态和释药速率均无明显变化。经８名健康志愿者单剂量口服实验，缓释微球相对于进口缓释片的生物利用度为１０２．５％，两者具有生物等价性。缓释微球的体内外相关性显著（ｐ＜０．０１）。