Creaming behavior prediction of argan oil in water emulsion stabilized by lacto-fermentation: creaming index

• Main Authors: Soumaya El Bouchikhi, Philippe Pagès, Azeddine Ibrahimi, Yahya Bensouda
• Format: Article
• Language: English
• Published: BMC 2021-09-01
• Series: BMC Biotechnology
• Subjects: Emulsion O/W; Argan oil; Sodium caseinate; Starch; Dairy-like products; Lacto-fermentation
• Online Access: https://doi.org/10.1186/s12896-021-00711-9

Abstract Background In order to improve the taste acceptability of certain nutritional oils, it has been decided in this study to introduce them in an emulsion whose surfactant is casein, then to carry out a lacto-fermentation, leading to a dairy-like product with added nutritional value and health benefit. In this context, a plan of mixtures has been proposed for the preparation of emulsions based on argan oil, sodium caseinate and starch, with concentrations ranged between (10–20%) and (0–2%) and (0–1.5%) respectively. All emulsions were homogenized at two high stirring velocities (10,000–20,000 rpm) and two stirring times (5–20 min). The physical stability was assessed by visual analysis and microstructural measurements. The Creaming index was calculated for selected emulsions to predict their creaming behavior. Results All emulsions showed a creaming behavior except one emulsion that required the highest values of all factors, which showed the highest creaming index with an average particle size of 11.27 μm. The absence or the variation of one or all factors led to various degrees of instabilities verified in all other emulsions. Due to the synergistic action of all parameters, the emulsion stability was attributed to the reduction of droplets size, the increase of continuous phase viscosity and the decrease of coalescence. Conclusion The parameters that played a major role in the stability of the emulsion consists of: stirring velocity and time, sodium caseinate/oil ratio and starch/sodium caseinate ratio. The underlying structure and the interaction of the fluid droplets within the solid like product is what holds the stability of the product against settling or separation during fermentation.