Abstract
A highly stable oil-in-water nanoemulsion for topical applications, containing mangostins extracted from the pericarp of mangosteen (Garcinia mangostana L.), is a promising strategy to protect mangostins as well as to improve penetration of these important antioxidants through the skins. Nanoemulsions consisted of virgin coconut oil as the oil phase, Tween-80 and Span-80 as surfactants, and xanthan gum as the thickening agent, were prepared using the high-energy and low-energy emulsification methods. The nanoemulsions that were stable up to 28 days had oil droplet diameter of 220 nm to 353 nm and zeta potential of -46.9 mV to -63.7 mV. The accelerated stability test showed that the most stable nanoemulsions were those prepared using the low-energy emulsification method with an estimated shelf life of eleven months, composed of 11% oil phase, 17% surfactant, and 72% aqueous phase. The in vitro percutaneous penetration test for the nanoemulsion with added xanthan gum provided high cumulative skin penetration of mangostins of up to 114 μg/cm2. The results of this study indicate that virgin coconut oil-based nanoemulsions containing mangostins, prepared using the low-energy emulsification method, stabilized by xanthan gum and mixed at 40°C can prospectively be used for topical applications.
Highlights
The topical application of extracts containing antioxidant bioactives, such as mangostins and other xanthones, have been hindered because these highly lipophilic bioactives have low solubilities in water and they are susceptible to degradation under normal conditions
The solubility of mangosteen extracts in the oil phase observed in this study is much higher than the reported solubility of 0.156 mg extract/mL virgin coconut oil (VCO) [17], probably due to the much longer solid-liquid contact time used in the present study
As the extract is much more soluble in VCO than it is in palm kernel oil (PKO) and extra virgin olive oil (EVOO), virgin coconut oil was subsequently used as the oil phase in the preparation of the nanoemulsions
Summary
The topical application of extracts containing antioxidant bioactives, such as mangostins and other xanthones, have been hindered because these highly lipophilic bioactives have low solubilities in water and they are susceptible to degradation under normal conditions. Emulsionbased delivery systems are suited for the encapsulation of mangosteen extract within an oil-in-water (o/w) nanoemulsion [1], having a small droplet diameter of less than 200 nm [2]. Nanoemulsion has become an effective approach to protect and improve dispersability of bioactives in aqueous solutions, which can increase percutaneous absorption in topical application. Nanoemulsion have several advantages over conventional emulsions, such as the increased bioavailability of encapsulated bioactives, high stability against droplet aggregation and separation, and increased shelf life for commercial products [3].
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