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  • Predictive relationships for the effects of triglyceride ester concentration and water uptake on solubility and partitioning of small molecules into lipid vehicles.

Predictive relationships for the effects of triglyceride ester concentration and water uptake on solubility and partitioning of small molecules into lipid vehicles.

Journal of pharmaceutical sciences (2004-09-25)
Yichen Cao, Michelle Marra, Bradley D Anderson
ABSTRACT

The ability to predict drug solubility and partitioning in triglyceride solvents from the chemical structures of the solute and the triglyceride would be highly useful in drug formulation development and in screening drug candidates for lipid solubility and possibly drug bioavailability. This study explores the role of triglyceride ester concentration on small molecule partitioning between lipid vehicles and water, including the effect of ester concentration on water uptake. The influence of solvated water is further examined in studies of small molecule solubility in dry and water saturated lipid vehicles varying in triglyceride ester concentration. A series of model solutes with varying hydrogen bond donating/accepting abilities was chosen for this study while triglyceride ester concentrations were varied by using squalane/tricaprylin solvent mixtures. General linear free energy solvation relationships having the form utilized previously by Abraham were obtained at each solvent composition. An examination of the solvent descriptors indicated that those descriptors representing the sensitivity of the solvent to the solute dipolarity/polarizability, s, and to the hydrogen bond acidity of the solute, a, vary systematically with the concentration of ester moieties in the solvent mixture. An empirical equation has been derived that offers the potential for predicting triglyceride/water partition coefficients and in certain cases, solubility in hydrated, fully-saturated triglyceride solvents for any small molecule for which Abraham solute descriptors can be obtained. Water uptake in triglyceride vehicles is shown to be approximately linear with water activity and may also be described by the empirical relationship developed for other solutes providing an adjustment is made in the value of its hydrogen bond acidity parameter. Water uptake enhances the solubility of benzamide and N-methylbenzamide and a modest "water-dragging" effect by N-methylbenzamide in the triglycerides is observed.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Methyl phenylacetate, ReagentPlus®, ≥99%