作为中链脂质基微乳制剂给药后，对脂肪酶介导消化的敏感性降低了达那唑的口服生物利用度。

Susceptibility to lipase-mediated digestion reduces the oral bioavailability of danazol after administration as a medium-chain lipid-based microemulsion formulation.

作者信息

Porter Christopher J H, Kaukonen Ann Marie, Boyd Ben J, Edwards Glenn A, Charman William N

机构信息

Department of Pharmaceutics, Victorian College of Pharmacy, Monash University (Parkville Campus), Parkville, Victoria 3052, Australia.

出版信息

Pharm Res. 2004 Aug;21(8):1405-12. doi: 10.1023/b:pham.0000036914.22132.cc.

DOI:10.1023/b:pham.0000036914.22132.cc

PMID:15359575

Abstract

PURPOSE

To investigate the impact of lipidic formulation type on in vitro dispersion and digestion properties and the relationship to oral bioavailability, using danazol as a model lipophilic poorly water-soluble drug.

METHODS

Three lipid-based danazol formulations [a long-chain triglyceride solution (LCT-solution) and self-microemulsifying drug delivery systems (SMEDDS) based on long-chain (C18) lipids (LC-SMEDDS) and medium-chain (C8-C10) lipids (MC-SMEDDS)] were administered to fasted beagle dogs and compared with a micronized danazol formulation administered postprandially and in the fasted state. In vitro dispersion and particle size data for the two SMEDDS were compared, and the distribution/solubilization patterns of danazol across the various phases produced during in vitro digestion quantified.

RESULTS

The LCT-solution and LC-SMEDDS formulations significantly enhanced the oral bioavailability of danazol when compared to fasted administration of the powder formulation. In contrast, and despite displaying excellent dispersion properties, the MC-SMEDDS resulted in little enhancement in danazol bioavailability. In support of the in vivo findings, in vitro digestion of the medium-chain formulation resulted in significant drug precipitation when compared with the long-chain lipid formulations.

CONCLUSIONS

Digestion of microemulsion preconcentrate formulations based on medium-chain lipids may limit in vivo utility when compared with similar formulations based on long chain lipids.

摘要

目的

以达那唑作为亲脂性难溶性药物模型，研究脂质制剂类型对体外分散和消化特性的影响以及与口服生物利用度的关系。

方法

将三种基于脂质的达那唑制剂[一种长链甘油三酯溶液（LCT溶液）以及基于长链（C18）脂质的自微乳化药物递送系统（SMEDDS，LC-SMEDDS）和中链（C8-C10）脂质的自微乳化药物递送系统（MC-SMEDDS）]给予禁食的比格犬，并与餐后和禁食状态下给予的微粉化达那唑制剂进行比较。比较了两种SMEDDS的体外分散和粒径数据，并对达那唑在体外消化过程中产生的各相中的分布/增溶模式进行了量化。

结果

与空腹服用粉末制剂相比，LCT溶液和LC-SMEDDS制剂显著提高了达那唑的口服生物利用度。相比之下，尽管MC-SMEDDS具有优异的分散性能，但达那唑的生物利用度几乎没有提高。为支持体内研究结果，与长链脂质制剂相比，中链制剂的体外消化导致显著的药物沉淀。

结论

与基于长链脂质的类似制剂相比，基于中链脂质的微乳预浓缩制剂的消化可能会限制其体内应用。

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作为中链脂质基微乳制剂给药后，对脂肪酶介导消化的敏感性降低了达那唑的口服生物利用度。

Susceptibility to lipase-mediated digestion reduces the oral bioavailability of danazol after administration as a medium-chain lipid-based microemulsion formulation.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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