紫杉醇的水增溶作用：对具有水增溶特性的化学结构的分析

Hydrotropic solubilization of paclitaxel: analysis of chemical structures for hydrotropic property.

作者信息

Lee Jaehwi, Lee Sang Cheon, Acharya Ghanashyam, Chang Ching-jer, Park Kinam

机构信息

Department of Pharmaceutics and Biomedical Engineering, Purdue University, West Lafayette, Indiana 47907, USA.

出版信息

Pharm Res. 2003 Jul;20(7):1022-30. doi: 10.1023/a:1024458206032.

DOI:10.1023/a:1024458206032

PMID:12880288

Abstract

PURPOSE

To identify hydrotropic agents that can increase aqueous paclitaxel (PTX) solubility and to study the chemical structures necessary for hydrotropic properties so that polymeric hydrotropic agents can be synthesized.

METHODS

More than 60 candidate hydrotropic agents (or hydrotropes) were tested for their ability to increase the aqueous PTX solubility. A number of nicotinamide analogues were synthesized based on the observation that nicotinamide showed a favorable hydrotropic property. The identified hydrotropes for PTX were used to examine the structure-activity relationship.

RESULTS

N,N-Diethylnicotinamide (NNDENA) was found to be the most effective hydrotropic agent for PTX. The aqueous PTX solubility was 39 mg/ml and 512 mg/ml at NNDENA concentrations of 3.5 M and 5.95 M, respectively. These values are 5-6 orders of magnitude greater than the intrinsic solubility of 0.30 +/- 0.02 microg/ml. N-Picolylnicotinamide, N-allylnicotinamide, and sodium salicylate were also excellent hydrotropes for PTX. Solubility data showed that an effective hydrotropic agent should be highly water soluble while maintaining a hydrophobic segment.

CONCLUSIONS

The present study identified several hydrotropic agents effective for increasing aqueous solubility of PTX and analyzed the structural requirements for this hydrotropic property. This information can be used to find other hydrotropic compounds and to synthesize polymeric hydrotropes that are effective for PTX and other poorly water-soluble drugs.

摘要

目的

鉴定能够提高紫杉醇（PTX）水溶液溶解度的助溶剂，并研究具有助溶特性所需的化学结构，以便合成聚合物助溶剂。

方法

测试了60多种候选助溶剂增加PTX水溶液溶解度的能力。基于烟酰胺具有良好助溶特性这一观察结果，合成了多种烟酰胺类似物。使用鉴定出的PTX助溶剂来研究构效关系。

结果

发现N，N - 二乙基烟酰胺（NNDENA）是PTX最有效的助溶剂。在NNDENA浓度为3.5 M和5.95 M时，PTX水溶液溶解度分别为39 mg/ml和512 mg/ml。这些值比0.30±0.02 μg/ml的固有溶解度大5 - 6个数量级。N - 吡啶甲基烟酰胺、N - 烯丙基烟酰胺和水杨酸钠也是PTX的优良助溶剂。溶解度数据表明，有效的助溶剂应具有高水溶性，同时保留疏水部分。

结论

本研究鉴定了几种有效提高PTX水溶液溶解度的助溶剂，并分析了这种助溶特性的结构要求。该信息可用于寻找其他助溶化合物，并合成对PTX和其他难溶性药物有效的聚合物助溶剂。

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紫杉醇的水增溶作用：对具有水增溶特性的化学结构的分析

Hydrotropic solubilization of paclitaxel: analysis of chemical structures for hydrotropic property.

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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