Enhanced intestinal lymphatic absorption of saquinavir through supersaturated self-microemulsifying drug delivery systems

The therapeutic potential of saquinavir, a specific inhibitor of human immunodeficiency virus(HIV)-1 and HIV-2 protease enzymes, has been largely limited because of a low solubility and consequnt low bioavailability. Thus, we aimed to design a supersaturated selfmicroemulsifying drug delivery system(S-SMEDDS) that can maintain a high concentration of saquinavir in gastro-intestinal fluid thorugh inhibiting the drug precipitation to enhance the lymphatic transport of saquinavir and to increase the bioavailability of saquinavir considerably. Solubilizing capacity of different oils, surfactants, and cosurfactants for saquinavir was evaluated to select optimal ingredients for preparation of SMEDDS.Through the construction of pseudo-ternary phase diagram, SMEDDS formulations were established. A polymer as a precipitation inhibitor was selected based on its viscosity and drug precipitation inhibiting capacity. The S-SMEDDS and SMEDDS designed were administered at an equal dose to rats. At predetermined time points, levels of saquinavir in lymph collected from the rats were assessed. SMEDDS prepared presented a proper selfmicroemulsification efficiency and dispersion stability. The S-SMEDDS fabricated using the SMEDDS and hydroxypropyl methyl cellulose 2910 as a precipitation inhibitor exhibited a signficantly enhanced solubilizing capacity for saquinavir. The drug concentration in a simulated intestinal fluid evaluated with the S-SMEDDS was also maintained at higher levels for prolonged time than that examined with the SMEDDS. The S-SMEDDS showed a considerably enhanced lymphatic absoprtion of saquinavir in rats compared to the SMEDDS.Therefore, the S-SMEDDS would be usefully exploited to enhance the lymphatic absorption of hydrophobic drugs that need to be targeted to the lymphatic system.

一种全新合成的抗抑郁药物的自微乳化载药系统(SMEDDS)理化性质和体外释药行为研究

目的研究一种全新合成的抗抑郁药物AJS的自微乳化制剂(AJS-SMEDDS)的理化性质和体外释药行为。方法考察AJS-SMEDDS制剂的黏度、zeta电位和粒度,研究其流变学性质及电学性质;采用总体液平衡反向透析法测定其体外释药性能;并考察了其稳定性。结果 AJS-SMEDDS制剂为塑性流体,在分散介质中所形成的乳滴zeta电位为-2.76 m V,粒径为(26.08±1.68)nm,制剂质量稳定,低温不影响其性能。结论 AJSSMEDDS制剂质量稳定,适合工业生产。

Inhibitive Effect of Cremophor RH40 or Tween 80-based Self-microemulsiflying Drug Delivery System on Cytochrome P450 3A Enzymes in Murine Hepatocytes

This study examined the effect of self-microemulsiflying drug delivery system (SMEDDS) containing Cremophor RH40 or Tween 80 at various dilutions on cytochrome P450 3A (CYP3A) enzymes in rat hepatocytes, with midazolam serving as a CYP3A substrate.The particle size and zeta potential of microemulsions were evaluated upon dilution with aqueous medium.In vitro release was detected by a dialysis method in reverse.The effects of SMEDDS at different dilutions and surfactants at different concentrations on the metabolism of MDZ were investigated in murine hepatocytes.The cytotoxicity of SMEDDS at different dilutions was measured by LDH release and MTT technique.The effects of SMEDDS on the CYP3A enzymes activity were determined by Western blotting.Our results showed that dilution had less effect on the particle size and zeta potential in the range from 1:25 to 1:500.The MDZ was completely released in 10 h.A significant decrease in the formation of 1’-OH-MDZ in rat hepatocytes was observed after treatment with both SMEDDS at dilutions ranging from 1:50 to 1:250 and Cremophor RH 40 or Tween 80 at concentrations ranging from 0.1% to 1% (w/v), with no cytotoxicity observed.A significant decrease in CYP3A protein expression was observed in cells by Western blotting in the presence of either Cremophor RH40 or Tween 80-based SMEDDS at the dilutions ranging from 1:50 to 1:250.This study suggested that the excipient inhibitor-based formulation is a potential protective platform for decreasing metabolism of sensitive drugs that are CYP3A substrates.

Enhancement of solubility and therapeutic potential of poorly soluble lovastatin by SMEDDS formulation adsorbed on directly compressed spray dried magnesium aluminometasilicate liquid loadable tablets: A study in diet induced hyperlipidemic rabbits

The aim of present study was to formulate and evaluate a self-microemulsifying drug delivery systems(SMEDDS)containing lovastatin and to further explore the ability of porous Neusilin■ US2 tablet as a solid carrier for SMEDDS.SMEDDS formulations of varying proportions of peceol,cremophor RH 40 and transcutol-P were selected and subjected to invitro evaluation,including dispersibility studies,droplet size,zeta potential measurement and release studies.The results indicated that the drug release profile of lovastatin from SMEDDS formulations was statistically significantly higher(p-value<0.05)than the plain lovastatin powder.Thermodynamic stability studies also confirmed the stability of the prepared SMEDDS formulations.The optimized formulation,which consists of 12% of peceol,44% of cremophor RH 40,and 44% of transcutol-P was loaded into directly compressed liquid loadable tablet of Neusilin■ US2 by simple adsorption method.In order to determine the ability of Neusilin®US2 as a suitable carrier pharmacodynamics study were also carried out in healthy diet induced hyperlipidemic rabbits.Animals were administered with both liquid SMEDDS and solid SMEDDS as well.From the results obtained,Neusilin■ was found to be a suitable carrier for SMEDDS and was equally effective in reducing the elevated lipid profile.In conclusion,liquid loadable tablet(LLT)is predicted to be a promising technique to deliver a liquid formulation in solid state.

In vitro and in vivo evaluation of a self-microemulsifying drug delivery system for silybin

To enhance the oral absorption of the poorly water-soluble drug silybin, a self-microemulsifying drug delivery system （SMEDDS） composed of ethyl linoleate, Cremophor EL and PEG 400 for oral administration of silybin was formulated, and its physicochemical properties and bioavailability of silybin were evaluated. The in vitro release of silybin from microemulsion and dispersion of silybin from SMEDDS were significantly faster than those from the commercial silybin hard capsule, respectively. The area under the drug concentration-time curve （AUC） and the mean maximum plasma level （Cmax） of the SMEDDS were remarkably greater than those of the hard capsule after oral administration to rats. The absorption of silybin formulated in SMEDDS exhibited a 2.3-fold increase in bioavailability as compared with the hard capsule. These results demonstrated that SMESDDS might be a useful drug delivery system for the oral delivery of the poorly water-soluble drug silybin.

Self-microemulsifying drug delivery system for improving the bioavailability of huperzine A by lymphatic uptake

Huperzine A(Hup-A) is a poorly water-soluble drug with low oral bioavailability. A selfmicroemulsifying drug delivery system(SMEDDS) was used to enhance the oral bioavailability and lymphatic uptake and transport of Hup-A. A single-pass intestinal perfusion(SPIP) technique and a chylomicron flow-blocking approach were used to study its intestinal absorption, mesenteric lymph node distribution and intestinal lymphatic uptake. The value of the area under the plasma concentration–time curve(AUC) of Hup-A SMEDDS was significantly higher than that of a Hup-A suspension(P <0.01).The absorption rate constant(K_a) and the apparent permeability coefficient(P_(app)) for Hup-A in different parts of the intestine suggested a passive transport mechanism, and the values of K_a and P_(app) of Hup-A SMEDDS in the ileum were much higher than those in other intestinal segments. The determination of Hup-A concentration in mesenteric lymph nodes can be used to explain the intestinal lymphatic absorption of Hup-A SMEDDS. For Hup-A SMEDDS, the values of AUC and maximum plasma concentration(C_(max)) of the blocking model were significantly lower than those of the control model(P<0.05). The proportion of lymphatic transport of Hup-A SMEDDS and Hup-A suspension were about 40% and 5%,respectively, suggesting that SMEDDS can significantly improve the intestinal lymphatic uptake and transport of Hup-A.

Effect of mesopores on solidification of sirolimus self-microemulsifying drug delivery system

To investigate the influence of mesopores towards the solidification of self-microemulsifying drug delivery system(SMEDDS), mesoporous silica nanospheres(MSNs) and Santa Barbara Amorphous-15(SBA-15) were compared. The MSNs had hydrodynamic size of 195.35 ± 5.82 nm, and pore diameter of 2.70 nm. The SBA-15 had hydrodynamic size of 2312.19 ± 106.93 nm, and pore diameter of 10.91 nm. The MSNs and SBA-15 showed similar loading efficiency of SMEDDS containing sirolimus(SRL). However,MSNs had higher drug dissolution and in vivo absorption, with relative bioavailability of 174.62%. Thus,the length of mesopores played a more important role in solidification of SMEDDS as compared with the pore diameter. This study suggests that the SMEDDS-MSNs can be a potential candidate for oral administration of hydrophobic drugs.

黄芩苷及其磷脂复合物、自微乳的Caco-2细胞跨膜转运研究

目的:比较黄芩苷(BA)、黄芩苷磷脂复合物(BA-PC)及黄芩苷磷脂复合物的两种自微乳给药系统(BA-PC-SMEDDS),即BA-PC-NS-SMEDDS(不含天然乳化剂)、BA-PC-NE-SMEDDS(含天然乳化剂)的吸收特性,预测其提高药物生物利用度的能力。方法:采用Caco-2细胞模型进行BA、BA-PC及BA-PC-SMEDDS的转运研究,HPLC色谱法测定BA含量。结果:BA的转运速率和Papp值随着浓度的增加而增加,表明药物很可能为被动吸收机制;随着时间的延长各浓度的转运速率和Papp值呈下降趋势。当加入P-gp抑制剂后,BA外排率(ER)由2.07降为0.48,减少了76.8%,证明BA为P-gp底物。BA、BA-PC及BA-PC-SMEDDS在90 min以前转运量无明显增加(P>0.05),而90 min之后,BA-PC及BA-PC-SMEDDS的转运量较BA有显著性增加(P<0.05),转运3 h时,累积转运量及Papp值的大小依次为:BA-PC-NS-SMEDDS>BA-PC-NE-SMEDDS>BA-PC>BA,并呈现显著性差异(P<0.05)。而且,BA-PC或BA-PC-SMEDDS吸收方向的Papp值均明显大于加入P-gp抑制剂(维拉帕米)的Papp值(P<0.05)。结论:PC促进了BA的跨膜转运,PC-SMEDDS相结合使转运效果进一步增强(P<0.05),其中,BA-PC-NS-SMEDDS促吸收的效果较BA-PC-NE-SMEDDS更显著(P<0.05)。

丹参酮Ⅱ_A自微乳释药系统的制备和性质研究

目的制备丹参酮ⅡA自微乳,为其新制剂开发提供参考。方法采用伪三元相图法研究不同乳化剂、助乳化剂和油相形成微乳的能力和区域,绘制不同处方组成的相图,并制备丹参酮ⅡA自微乳。利用高效液相色谱法测定丹参酮ⅡA在自微乳中的溶解度,考察自微乳的稳定性,并对微乳后的粒径大小、Zeta电位进行测定。结果所制备的自微乳中丹参酮ⅡA的溶解度为2.5 mg/g,对离心、高温破坏等稳定性良好,对光稳定性欠佳,微乳后可得到平均粒径在20 nm以下、Zeta电位绝对值在60 mV以上的微乳。结论丹参酮ⅡA自微乳制备简单,性质稳定,可显著增加丹参酮ⅡA在水中的溶解度。

吲哚美辛自微乳肠溶胶囊的处方设计及体外溶出度评价

目的制备吲哚美辛自微乳肠溶胶囊,并考察其体外溶出度。方法考察吲哚美辛在不同油、乳化剂及助乳化剂中的溶解度;根据溶解度的结果,采用正交设计试验和伪三元相图进行处方优化,筛选得到吲哚美辛自微乳的最佳工艺;将吲哚美辛自微乳装入肠溶胶囊中考察溶出度。结果吲哚美辛自微乳的处方组成为:吲哚美辛∶油酸乙酯∶吐温-80∶PEG-400的质量比为0.03∶0.135∶0.225∶0.09。制备得到的微乳粒径为21.97 nm,分散系数为0.180。吲哚美辛自微乳在pH 5.0磷酸盐缓冲溶液中,60 min时溶出度超过50%;吲哚美辛自微乳肠溶胶囊在pH 7.2磷酸盐缓冲溶液中,60 min时溶出度超过80%。结论自微乳剂能够改善吲哚美辛的溶解性,吲哚美辛自微乳剂在pH 5.0、pH 7.2磷酸盐缓冲溶液中的溶出均较好,吲哚美辛自微乳肠溶胶囊的制备工艺简单,具有良好开发应用前景。

大蒜素自微乳的制备与质量评价

目的:制备大蒜素(DATS)自微乳制剂,并评价其质量。方法:采用伪三元相图法,以聚氧乙烯氢化蓖麻油RH-40为表面活性剂,无水乙醇为助表面活性剂,油酸为油相,绘制该系统的相图,在此基础上制备DATS自微乳;建立HPLC法测定DATS自微乳中DATS的含量;对自微乳的外观性状、相对密度、黏度、pH值、电导率、形态、粒径及粒度分布、Zeta电位、含量、配伍和稳定性等进行研究。结果:DATS自微乳为无色澄明液体,稳定性良好,相对密度为0.840 g.mL-1,黏度为5.447 mPa.s,遇水形成O/W型微乳,稀释250倍后电镜下观察成圆球形,平均粒径26.4 nm,Zeta电位0.398 mV,pH值5.62,电导率为8.37μs.cm-1,3批制剂的含量分别为31.77,31.45,32.15 mg.mL-1。DATS自微乳与葡萄糖注射液、氯化钠注射液等配伍稳定。结论:DATS自微乳制备工艺简单,性质稳定,质量易控。

山楂叶总黄酮自微乳化释药系统的研究

目的研究山楂叶总黄酮自微乳化释药系统的处方工艺。方法通过溶解度、处方配伍试验和伪三元相图的绘制,以色泽、乳化时间和乳化后粒径大小为指标,筛选油相、表面活性剂、助表面活性剂的最佳配伍和处方配比。并以益心酮片为参比,测定山楂叶总黄酮自微乳化释药系统的溶出度。结果山楂叶的自微乳化处方中油相为乳化剂为Labrasol(35%),助乳化剂为Transcutol P(10%)。自微乳化后的粒径为(39.5±5.4)nm,自微乳化时间小于1min。蒸馏水中10min累积溶出度达70%以上,而益心酮片60min的溶出度不足50%。结论所制备的山楂叶总黄酮自微乳化释药系统达到了设计要求,为山楂叶总黄酮新制剂开发提供了依据。

自微乳载药系统(SMEDDS)用于丹参酮的增溶及吸收研究

目的:考察自微乳载药系统(SMEDDS)对丹参酮的增溶和吸收的影响,以指导丹参酮SMEDDS处方的选择。方法:紫外分光光度法测定SMEDDS溶液中丹参总酮的溶解度,采用大鼠在体小肠吸收模型考察丹参酮SMEDDS的吸收。结果:丹参总酮在SMEDDS溶液中的溶解度是水中的10倍,胶束中的2.5倍,且SMEDDS处方中油相(中链甘油三酸酯,MCT)比例增加,溶解度增加;丹参酮SMEDDS和胶束的吸收常数Ka分别为0.479,0.326h-1,t1/2分别为1.44,2.12h,SMEDDS处方中油相(MCT)比例增加,吸收增加。结论:SMEDDS能显著增加丹参酮的溶解度和在大鼠小肠的吸收,且SMEDDS处方中MCT能促进丹参酮的增溶和吸收。

松萝酸自微乳和滴丸在大鼠体内的药物动力学研究

目的对松萝酸自微乳和滴丸两种制剂的体内药物动力学进行考察。方法建立大鼠血浆中松萝酸的HPLC测定方法,色谱条件为:Sepax Sapphire C18色谱柱(250 mm×4.6 mm,5μm);流动相甲醇-(50 mmol KH2PO4∶三乙胺500∶1)(70∶30);柱温40℃;体积流量0.8 mL/min;检测波长:285 nm。测定大鼠口服两种制剂后不同时间点血浆中松萝酸的质量浓度,计算药物动力学参数。结果血浆中松萝酸在0.025～50μg/mL范围内呈良好的线性关系,r=0.999 3。平均回收率在90%～110%之间。松萝酸自微乳、滴丸剂在大鼠体内给药后均符合单室一级吸收模型。主要药物动力学参数为:tmax分别为2.968 h和3.125 h;Cmax分别为36.860μg/mL和42.392μg/mL;AUC0-∝分别为660.934μg/(mL.h)和646.777μg/(mL.h)。结论和松萝酸混悬液比较,松萝酸两种制剂的相对生物利用度均显著提高。

交泰丸活性组分自微乳化系统的研究

目的:研究交泰丸活性组分自微乳化系统的组方和质量控制方法。方法:考察盐酸小檗碱在不同辅料中的溶解度及乳化剂和助乳化剂对肉桂油的乳化能力,确定最佳处方;以盐酸小檗碱和桂皮醛为指标,用HPLC法测定两者在自微乳化系统中的含量。结果:交泰丸自微乳化最佳处方为OP-(1,2-丙二醇)-肉桂油-黄连生物碱,其比例为4∶8∶3∶6;形成微乳的平均粒径为15.8nm,自微乳化处方中盐酸小檗碱的含量≥20.0%,桂皮醛的含量≥10.0%。结论:交泰丸活性组分自微乳化系统形成的微乳粒径小,稳定性好;以盐酸小檗碱和桂皮醛为质量控制指标,方法准确可行。

葛根素自微乳的制备工艺研究

目的筛选葛根素自微乳的处方。方法通过药物溶解度实验和伪三元相图的绘制,以粒径大小和分布为指标,筛选油相、乳化剂、助乳化剂的处方配比。测定葛根素自微乳释药系统的溶出度。结果确定的葛根素自微乳处方比例为葛根素∶油酸聚乙醇甘油酯(labrafil M 1944CS)∶聚氧乙烯氢化蓖麻油(RH-40)∶聚乙二醇400(PEG 400)=9.1%∶36.4%∶36.4%∶18.1%。结论通过研究确定了最优化的葛根素自微乳处方,微乳粒径分布均匀。

星点设计-效应面法优化赤芍总苷自微乳化给药系统

采用星点设计-效应面法优化赤芍总苷自微乳化给药系统的处方.以油相含量及Km值为考察因素,以自乳化时间、透光率、粒径和载药量为评价指标,对实验结果进行模型拟合,用效应面法预测最佳处方为当油相含量为21.41%,Km值为2.48时,其自乳化时间、透光率、粒径、载药量分别为1.62min、60.1%、76.67nm、259.80mg·g-1.应用星点设计-效应面优化方法能够快速方便准确地得到赤芍总苷自微乳化给药系统的较优处方.

新型抗脑卒中化合物TID-101自微乳制剂大鼠体内生物利用度研究

目的建立测定大鼠血浆中防治缺血性脑卒中化合物TID-101的LC-MS/MS方法,并研究其自微乳制剂大鼠体内生物利用度及药代动力学特征。方法血浆样品用甲醇沉淀蛋白处理,以乙腈-水为流动相,采用ESI源以多反应监测方式进行负离子检测,用于定量分析的离子反应为m/z 353.4→323.2（TID-101）和433.4→353.4（醋酸地塞米松,内标）。将建立的方法应用于大鼠口服TID-101自微乳的生物利用度及药代动力学研究。结果 TID-101在10~95 000 ng/ml内呈良好的线性关系（r=0.999 8）,日内、日间精密度（RSD）均〈15%,回收率在83.4%~87.0%之间。应用此法测试大鼠静脉注射TID-101脂肪乳和口服原料药及自微乳制剂后的血药浓度,计算出原料药混悬液和自微乳的口服绝对生物利用度分别为2.8%和14.9%。结论本法操作简单、准确、灵敏度高,可用于TID-101大鼠体内药动学研究;自乳化释药系统能有效提高TID-101大鼠口服生物利用度。

环孢素软胶囊自乳化粒径的检测

目的建立环孢素软胶囊自乳化粒径的合理检测方法。方法分别采用水、0.1mol·mL-1 HCl和pH 6.8磷酸盐缓冲液作为稀释溶剂,并稀释成不同浓度的微乳液。用动态光散射法测定上述乳液的粒径分布,比较其结果的差异。结果环孢素软胶囊在不同溶剂中自乳化后,粒径以及分布系数不同,且微乳液浓度影响检测结果。结论环孢素软胶囊自乳化粒径的大小和分布与溶剂以及稀释倍数相关。建立质量标准时,应采用合理的自乳化条件和测定参数,并同时考察平均粒径和分布系数进行质量评价。

注射用葫芦素B自微乳化药物传递系统的处方优化

目的对注射用葫芦素B自微乳化药物传递系统进行处方优化。方法在注射级辅料中筛选油相、乳化剂和助乳化剂,根据空白假三元相图和粒径分析进一步优化处方。结果最佳处方组成为m(油酸乙酯)∶m(Cremophor RH)∶m(乙醇)=30∶55∶15,其中药物含量的质量分数为1%。结论可按照最佳处方组成制备注射用葫芦素B自微乳化药物传递系统。