Edible and essential oils nanoparticles in food: a review on the production, characterization, application, stability, and market scenario.

The application of oils in the food industry is challenging, owing to their inherent factors such as oxidation. Therefore, new technologies, such as nanoencapsulation, are being developed. Among the nanoencapsulated oils, essential oils (EO) and edible oils stand out for their high consumer demand. This review analyzes the production, characterization, stability, and market scenario of edible and EO nanoparticles applied in foods. Homogenization was found to be the most common technique for producing oil nanoparticles. Different encapsulants were used, and Tween 80 was the main emulsifier. Approximately 80% of the nanoparticles were smaller than 200 nm, and the polydispersibility index and zeta potential values were satisfactory, mainly for nanoparticles containing EO, whereas encapsulation efficiency varied based on the technique and the type of oil used. Oil nanoparticles were mainly applied on meat products. The temperatures and times used in the stability tests of foods containing oil nanoparticles varied depending on the food matrix, especially in microbiological and physicochemical analyses. Only one product with nanoencapsulated oil in its composition was found in the market. Oil nanoparticles have great potential in the development of innovative, economically viable, and sustainable techniques for producing new food products that are high in nutrition value.

Novel bioactive nanoparticles from crude palm oil and its fractions as foodstuff ingredients.

Novel bioactive nanoparticles derived from crude palm oil (CPO), palm olein, and palm stearin for use in foodstuff products were produced, and their physicochemical characteristics and stability were evaluated. The nanoparticles were prepared by homogenization, using biodegradable casein or gum arabic as an encapsulating material. The encapsulation efficiency (EE), morphology, long-term stability, particle size, polydispersity index, zeta potential, pH, apparent viscosity, color parameters, total carotenoids, and antioxidant activity were determined. All nanoparticles methods produced spherical nanoparticles with EE higher than 85%. Highly homogeneous small particles (<300 nm) showing a tendency toward a yellow color were observed after 60 days of storage at 4 °C. The nanoparticles showed a carotenoid retention index higher than 40% and an antioxidant activity higher than 1,000 µM Trolox/g oil. The bioactive nanoparticles retained the carotenoids and are proposed as a green innovative product to replace synthetic colorants and antioxidants in foodstuffs.

Combination of carotenoids from Spirulina and PLA/PLGA or PHB: New options to obtain bioactive nanoparticles.

The use of poly-ß-hydroxybutyrate (PHB) is an alternative polymer that can be considered environment friendly and renewable to prepare nanoparticles of carotenoids. This study aimed to develop and characterize aqueous dispersion nanoparticles and lyophilized nanoparticles of carotenoid extract obtained from Spirulina sp. LEB 18 by nanoprecipitation, using poly d,l-lactic acid (PLA)/poly d,l-lactic-co-glycolic acid (PLGA) (75:25 w/w) or PHB as encapsulants. The samples were characterized for the particle size, polydispersity index, zeta potential, apparent viscosity, pH, color parameters, ultraviolet-visible (UV/Vis) spectrophotometry, carotenoid profile, encapsulation efficiency, morphology, and thermal analysis. Nanoparticles containing microalgae carotenoid extract showed average particle diameter on a nanoscale (<200 nm), high homogeneity and stability, high thermal stability, and encapsulation efficiency carotenoid (>80%) when compared to nanoparticles containing ß-carotene synthetic. PHB or PLA/PLGA as encapsulating material in the production of nanoparticles from microalgae carotenoids can be a polymeric alternative capable of promoting greater stability and application of carotenoids.

Technological Potential of Avocado Oil: Prospective Study Based on Patent Documents.

BACKGROUND: Avocado (Persea Americana, Mill.), belonging to the Lauraceae family, is considered a tropical fruit originating in Central America, with Mexico being the largest producer in the world. The fruit stands out for its economic potential and high nutritional value and its oil has good commercial value, however, its production is still incipient, being mainly used by the pharmaceutical and cosmetic industries. Despite producing a significant amount of oil, the avocado seed is still considered a by-product of fruit processing. METHODS: Thus, the objective of this work was to evaluate the technological potential of the oil obtained from the avocado and avocado seed through the research and analysis of patent documents available worldwide, in order to identify the main countries that have the technology researched as well as, the main areas of application. We revised all the patents related to acquisition, application and the use of avocado oil. For this, a search was carried out for the database of the Derwent Innovation Index (DII), which compiles the collection of documents published around the world. RESULTS: A total of 144 patent documents were identified, which were evaluated for the country of origin of thepublisher, the type of thepublisher, inventors, rate of publication over time and areas of application. There has been an increase in the number of patents producded as of 2011, which proves it to be a current and interesting technology. The main countries were the United States and the European Union. CONCLUSION: The documents identified referred to different processes applied to obtain oil, as well as the application for the development of new food, cosmetic and veterinary products. In this way, although incipient, the researched technology proved to be a promising area of research to be explored by universities and companies in view of the characteristics and potential of the product.