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纳米化对301029吸收的影响:通过液相色谱/质谱法测定的体外和体内药代动力学相关性

Effect of nanonization on absorption of 301029: ex vivo and in vivo pharmacokinetic correlations determined by liquid chromatography/mass spectrometry.

作者信息

Jia Lee, Wong Hong, Cerna Cesario, Weitman Steve D

机构信息

Institute for Drug Development/Cancer Therapy and Research Center, San Antonio, Texas 78245, USA.

出版信息

Pharm Res. 2002 Aug;19(8):1091-6. doi: 10.1023/a:1019829622088.

DOI:10.1023/a:1019829622088
PMID:12240933
Abstract

PURPOSE

To compare Caco-2 monolayer permeability and in vivo bioavailability of microparticle with nanoparticle 301029, a thiadiazole derivative, and to determine whether nanonization could improve oral bioavailability of the poorly soluble compound.

METHODS

The mean particle size of 301029 was reduced from 7 microm to 280 nm by pearl milling. In the ex vivo assay, both microparticle and nanoparticle 301029 at the same concentration were separately added to apical side and were collected from basolateral side of Caco-2 monolayer. In the bioavailability study, the two particle sizes of 301029 were orally administered to rats, respectively, and blood samples were collected. Nanoparticle 301029 in culture medium and rat serum was detected by a liquid chomatography-mass spectrometer (LC/MS) coupled with atmospheric pressure chemical ionization (APCI).

RESULTS

Permeability rate and permeated amounts of nanoparticle 301029 across the Caco-2 monolayer were about four times higher than those of microparticle 301029. In a pharmacokinetic study, nanoparticle 301029 showed Tmax about 1 h, whereas the microparticle 301029 showed Tmax at 4 h. The Cmax and AUC of nanoparticle 301029 were 3- to 4-fold greater than those of microparticle 301029, resulting in a significant increase in oral bioavailability of 301029 as compared with microparticle 301029. The ex vivo permeability and in vivo pharmacokinetic data indicate that nanoparticle formulation improves both absorption rate and absorption extent of the poorly soluble drug.

CONCLUSIONS

Nanoparticle formulation enhances both Caco-2 monolayer permeability and rat oral bioavailability of the poorly soluble 301029. The result also demonstrates a close correlation between ex vivo Caco-2 permeability model and in vivo gastrointestinal absorption.

摘要

目的

比较噻二唑衍生物微粒与纳米粒301029的Caco-2单层通透性及体内生物利用度,并确定纳米化是否能提高难溶性化合物的口服生物利用度。

方法

通过珠磨法将301029的平均粒径从7微米降至280纳米。在体外试验中,将相同浓度的微粒和纳米粒301029分别添加到Caco-2单层的顶侧,并从基底外侧收集。在生物利用度研究中,将两种粒径的301029分别口服给予大鼠,并采集血样。采用液相色谱-质谱联用仪(LC/MS)结合大气压化学电离(APCI)检测培养基和大鼠血清中的纳米粒301029。

结果

纳米粒301029跨Caco-2单层的通透率和透过量约为微粒301029的四倍。在药代动力学研究中,纳米粒301029的达峰时间约为1小时,而微粒301029的达峰时间为4小时。纳米粒301029的峰浓度(Cmax)和药时曲线下面积(AUC)比微粒301029大3至4倍,与微粒301029相比,301029的口服生物利用度显著提高。体外通透性和体内药代动力学数据表明,纳米粒制剂提高了难溶性药物的吸收速率和吸收程度。

结论

纳米粒制剂提高了难溶性301029的Caco-2单层通透性和大鼠口服生物利用度。结果还表明体外Caco-2通透性模型与体内胃肠道吸收之间存在密切相关性。

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