Abstract
Multiple emulsions are of great therapeutic interest especially in the administration of medicines which can be inactivated by digestive enzymes; moreover the researches of formulation not being often easy, a control of the different phases physicochemical parameters would be of great interest in rapid formulations and at low cost. When formulating emulsions, the preliminary tests, also known as formulation tests, constitute a step which can be long and expensive because of the quantity of reagents that can be used. A rigorous methodology could thus be of great interest, which is at the aim of our study which consists of evaluating the physico-chemical parameters of different phases used to make thus multiple emulsions. In our study, physico-chemical parameters such as conductivity, pH, density, viscosity, and surface tension have been studied by direct measurement using equipment and also by means of suitable mounting. The results showed that the pH and the surface tension have an important role in the prediction of the stability of emulsions, these latter must be of the same order of magnitude. For all phases conductivity does not have too much interest apart from helping to determine the type of the emulsion.
Highlights
Emulsions are thermodynamically unstable systems; they are mixtures of two immiscible phases to be dispersed one within the other
Multiple emulsions are of great therapeutic interest especially in the administration of medicines which can be inactivated by digestive enzymes; the researches of formulation not being often easy, a control of the different phases physicochemical parameters would be of great interest in rapid formulations and at low cost
A rigorous methodology could be of great interest, which is at the aim of our study which consists of evaluating the physico-chemical parameters of different phases used to make multiple emulsions
Summary
Emulsions are thermodynamically unstable systems; they are mixtures of two immiscible phases to be dispersed one within the other. According to Salager, “formulators of emulsions have experienced the unpleasant occurrence of the lack of reproduction of the physical properties (type, stability, viscosity) of an emulsion formulated with identical raw materials following the same rigorously definitive experimental protocol” [1] [2] [3]. Based on this assertion, we have studied the physical parameters which allow us to find information that is relevant for obtaining emulsions with good stability and which would be carried out within a rational time. Concerning the formulation and composition variables, the type of surfactant, the HLB, and the proportions of the various constituents were studied
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