Journal Article•
Development of a Lipid Particle for β-Carotene Encapsulation Using a Blend of Tristearin and Sunflower Oil: Choice of Lipid Matrix and Evaluation of Shelf Life of Dispersions
09 Sep 2013-Food Technology and Biotechnology (University of Zagreb, Faculty of Food Technology and Biotechnology (Sveuciliste u Zagrebu, Prehrambeno-Biotechnolosk i Fakultet))-Vol. 51, Iss: 3, pp 383-391
TL;DR: In this article, the authors choose a suitable lipid matrix to produce solid lipid particles, which would be used to encapsulate b-carotene, and evaluate the capacity of dispersions to protect the incorporated carotenoid.
Abstract: Summary Solid lipid particles are colloidal carriers that have been studied for almost 20 years in the pharmaceutical field and recently have been investigated by food researchers due to their capacity to enhance the incorporation of lipophilic bioactives and their bioavailability in aqueous formulations. The aims of this study are to choose a suitable lipid matrix to produce solid lipid particles, which would be used to encapsulate b-carotene, and to evaluate the capacity of dispersions to protect the incorporated carotenoid. Bulk lipid mixtures of tristearin and sunflower oil were analysed by differential scanning calorimetry and wide angle X-ray diffraction, and the mixture with the highest degree of structural disorganisation was chosen. b-Carotene was then encapsulated in solid lipid particles produced with this mixture, composed of 70 % tristearin and 30 % sunflower oil (6 % total lipid) and stabilised with hydrogenated soy lecithin and Tween 80 (3 % total surfactant) by hot pressure homogenisation. Two types of particles were produced, using one or two passages in the homogenisation step. Average particle size, zeta potential, thermal behaviour, crystallinity and b-carotene concentration were monitored over 4 months of storage (under refrigerated conditions). The results showed minor differences between the systems in terms of size distribution, although the particles produced with one passage through the homogeniser were slightly more efficient at protecting the b-carotene from degradation and also suffered few microstructural alterations after 4 months.
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Cites background from "Development of a Lipid Particle for..."
...The need for coencapsulation with an antioxidant to protect encapsulated beta-carotene has been also realized in other studies (Hentschel et al., 2008; Tikekar et al., 2011; Gomes et al., 2013)....
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References
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TL;DR: Electron microscopic investigations reveal that, in both cases, the particles in the alpha-modification are less anisometric than those of the stable beta-form, indicating that major rearrangements still may take place in solid lipid nanoparticles after recrystallization.
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TL;DR: In this article, a combination of blending and chemical interesterification (CIE) techniques was used to modify the characteristics of palm oil (PO), sunflower oil, and plam kernel olein (PKOo).
Abstract: Modification of the characteristics of palm oil (PO), sunflower oil, and plam kernel olein (PKOo) according to conventional three-component mixture designs was undertaken by a combination of blending and chemical interesterification (CIE) techniques. TAG composition and solid fat content (SFC) profile of the starting blends were analyzed and compared with those of the interesterified blends. Upon CIE, extensive rearrangement of FA among TAG was evident. Concentrations of several TAG were increased, some were decreased, and several new TAG were formed. The resulting changes in TAG profile were reflected in the SFC of the blends. The SFC values of the chemically interesterified blends, except binary blends of PO/PKOo, revealed that they were softer than their respective starting blends. SFC data also indicated that eutectic interaction occurred between PO and PKOo in the starting blends and that this interaction was diminished after CIE.
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