探究载体对局部给药的影响：利用硅酮膜理解溶剂与溶质渗透之间的基本关系。

Probing the effect of vehicles on topical delivery: understanding the basic relationship between solvent and solute penetration using silicone membranes.

作者信息

Cross S E, Pugh W J, Hadgraft J, Roberts M S

机构信息

Department of Medicine, University of Queensland, Princess Alexandra Hospital, Brisbane, Australia.

出版信息

Pharm Res. 2001 Jul;18(7):999-1005. doi: 10.1023/a:1010996513458.

DOI:10.1023/a:1010996513458

PMID:11496961

Abstract

PURPOSE

In the present study we examined the relationship between solvent uptake into a model membrane (silicone) with the physical properties of the solvents (e.g., solubility parameter, melting point, molecular weight) and its potential predictability. We then assessed the subsequent topical penetration and retention kinetics of hydrocortisone from various solvents to define whether modifications to either solute diffusivity or partitioning were dominant in increasing permeability through solvent-modified membranes.

METHODS

Membrane sorption of solvents was determined from weight differences following immersion in individual solvents, corrected for differences in density. Permeability and retention kinetics of 3H-hydrocortisone, applied as saturated solutions in the various solvents, were determined over 48 h in horizontal Franz-type glass diffusion cells.

RESULTS

Solvent sorption into the membrane could be related to differences in solubility parameters, MW and hydrogen bonding (r2=0.76). The actual and predicted volume of solvent sorbed into the membrane was also found to be linearly related to Log hydrocortisone flux, with changes in both diffusivity and partitioning of hydrocortisone observed for the different solvent vehicles.

CONCLUSIONS

A simple structure-based predictive model can be applied to the sorption of solvents into silicone membranes. Changes in solute diffusivity and partitioning appeared to contribute to the increased hydrocortisone flux observed with the various solvent vehicles. The application of this predictive model to the more complex skin membrane remains to be determined.

摘要

目的

在本研究中，我们研究了模型膜（硅酮）对溶剂的吸收与溶剂物理性质（如溶解度参数、熔点、分子量）之间的关系及其潜在的可预测性。然后，我们评估了氢化可的松从各种溶剂中的后续局部渗透和保留动力学，以确定溶质扩散率或分配系数的改变是否在通过溶剂改性膜提高渗透性方面起主导作用。

方法

通过将膜浸入各溶剂后根据重量差异确定溶剂的膜吸附量，并校正密度差异。将3H-氢化可的松作为饱和溶液应用于各种溶剂中，在水平Franz型玻璃扩散池中测定其48小时内的渗透率和保留动力学。

结果

溶剂在膜中的吸附与溶解度参数、分子量和氢键的差异有关（r2 = 0.76）。还发现膜中吸附的溶剂的实际体积和预测体积与氢化可的松通量的对数呈线性关系，对于不同的溶剂载体，氢化可的松的扩散率和分配系数均有变化。

结论

一个简单的基于结构的预测模型可应用于溶剂在硅酮膜中的吸附。溶质扩散率和分配系数的变化似乎导致了各种溶剂载体中氢化可的松通量的增加。该预测模型在更复杂的皮肤膜上的应用还有待确定。

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探究载体对局部给药的影响：利用硅酮膜理解溶剂与溶质渗透之间的基本关系。

Probing the effect of vehicles on topical delivery: understanding the basic relationship between solvent and solute penetration using silicone membranes.

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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