In this review, the use of air bubbles in the pharmaceutical and cosmetic formulations was discussed. The foam bubbles show different characteristics depending on the foaming agents and foam generating devices. The foam bubbles are generated in the form of dispersion of gas bubbles in a solvent. The assessment of stability and rheological properties of bubbles are the starting point for the formulation to be used. Pharmaceutical and cosmetic uses of bubbles are substantially growing, and the foam formulations of drugs can be used for rectal, vaginal, and dermal symptoms. The foam formulation is used in hair mousse, makeup foundation, and sunscreen cosmetics in basic cosmetics. Recently, a lot of studies and patents have been filed in stabilization of active ingredients and delivery of the active ingredient in terms of foam formulations. In the future, foam formulations are expected to be used as novel cosmeceutical formulations.
In this study, we investigated the effect on the increase of UV absorbance using a o/w nanoemulsion containing a blend of surfactants (Tween 80 and Span 80), an organic sunscreen, and wax. The particle size of nanoemulsion produced by PIC (Phase Inversion Composition), in Tween 80/Span 80 system containing candelilla wax was below 50 nm. As the concentration of Tween 80/Span 80/candelilla wax/organic UV filter was fixed at 4.5/0.5/3.0/2.0 wt%, and various organic sunscreens were added to the system, stable nanoemulsion was produced by Parsol MCX and Escalol 587, respectively. In addition, in the same system, when the ratio of Parsol MCX and candelilla wax was less than 2.0, a stable nanoemulsion was obtained. UV absorbance showed a high synergistic effect when Parsol MCX was used with candelilla wax.
Applications of nano-emulsion for cosmetics as a means of promoting dermal absorption have been the subject of interest. In this study, the stability of nano-emulsions prepared by low-energy emulsification method and varying the composition of raw materials was investigated. By measuring the particle size of the nano-emulsion against time, the stability of nano-emulsions prepared by adding polyol to water phase was increased significantly compared with the nano-emulsions prepared by adding polyol to ethanol phase. The speed of adding ethanol phase to water phase did not have a significant impact on the particle size and stability. Depending on the type of oil, stability was not affected. However, there would be a correlation between the initial size of the nano-emulsion droplets and the molecular weight and polarity of the oil. Stability and the initial particle size according to the type of polyols showed a similar trend except 1,2 hexanediol. The initial droplet size was affected by the concentration of surfactant and oil. However, the initial droplet size did not change against time. Concentration of ethanol was observed to have a significant impact on the initial particle size and stability.
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