Comparative Thermal Degradation Patterns of Natural Yellow Colorants Used in Foods

Giménez, Pedro J.; Fernández-López, José A.; Angosto, José M.; Obón, J.M.

doi:10.1007/s11130-015-0499-0

Cited by 40 publications

(23 citation statements)

References 22 publications

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“…Pure curcumin also tended to crystallize out of aqueous acidic solutions (pH < 7) and was subjected to rapid sedimentation [6]. In addition, thermal processing affects the visual color of curcumin as reported by Giménez, et al [7]. Curcumin undergoes hydrolytic degradation under thermal processing conditions [7,8,9].…”

Section: Introductionmentioning

confidence: 99%

Effect of Surfactant Concentrations on Physicochemical Properties and Functionality of Curcumin Nanoemulsions Under Conditions Relevant to Commercial Utilization

2019

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Surfactants are used to stabilize nanoemulsions by protecting their physical stability and preventing deterioration of the entrapped bioactive during processing and storage. The effect of surfactant concentration on physical-chemical properties of nanoemulsions with entrapped curcumin, relevant to commercial applications, was addressed in this research. Furthermore, the functionality of nanoemulsified curcumin in terms of lipid oxidation inhibition was determined. Protection against varying pH and thermal treatments was more significant in the nanoemulsions at the elevated surfactant level, but at these high concentrations, the surface charges of the emulsions dramatically decreased under sodium salt addition, which may result in instability over time. Nanoemulsions showed the potential to inhibit malondialdehyde (MDA) formulation by protecting the entrapped curcumin and enhance its antioxidant activity when added to milk. The fortified milk with added curcumin systems had a yellow color compared to the control. The results of the study are critical in choosing the surfactant concentration needed to stabilize emulsified curcumin, and to protect the entrapped curcumin under specific conditions of use to support the utilization of curcumin nanoemulsions as a food additive in different commercial products.

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Section: Introductionmentioning

confidence: 99%

Effect of Surfactant Concentrations on Physicochemical Properties and Functionality of Curcumin Nanoemulsions Under Conditions Relevant to Commercial Utilization

2019

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“…A previous study (Giménez et al, 2015) on the thermal degradation kinetics (30, 50, 70, and 90 • C) during 6 h of natural yellow colorants in a model system (ethanol:water; 3:2; v/v) obtained by ␤-carotene and lutein revealed Ea values of 6.49 kJ mol −1 and 3.18 kJ mol −1 , respectively. The Ea values were 54.77 kJ mol −1 for ␤-carotene and 44.81 kJ mol −1 for lutein; these values are higher than those reported by Giménez et al (2015) for free ␤-carotene and lutein. Lobato et al (2015) reported that the Ea value of nanoencapsulated bixin (99.62 kJ mol −1 ) was higher than that of free bixin (63.01 kJ mol −1 ) at temperatures of 65, 80, and 95 • C for 125 min.…”

Section: Ncs Stability Under Thermal Treatment In the Darkmentioning

confidence: 94%

“…However, drawbacks such as their hydrophobic nature and instability at high temperatures, in light, and with oxygen and other chemical components (Lerfall, 2016) hamper their successful application in food matrices (Campardelli et al, 2012), particularly in water-rich foods. A previous study (Giménez et al, 2015) monitored the color degradation of natural yellow colorants that are used in foods (such as lutein, ␤-carotene, curcumin, riboflavin, gardenia yellow, and Opuntia extract)…”

Section: Introductionmentioning

confidence: 99%

Thermal and ultraviolet–visible light stability kinetics of co-nanoencapsulated carotenoids

Silva

Paese

Guterres

et al. 2017

Food and Bioproducts Processing

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Lipid-core nanocapsules loaded with ␤-carotene and ␣-carotene, and lutein (NCs) were produced with monomodal particle size distribution. Their mean diameter was 151.33 ± 5.03 nm (D 4,3) and 180.30 ± 0.70 nm (z-average), zeta potential was −22.63 ± 0.52 mV, and pH was 3.21 ± 0.04. The stability of NCs was studied under different simulated industrial treatments, such as thermal and ultraviolet (UV)-visible light treatment. Regardless of the temperature and incubation time of the samples, higher carotenoids retention (%) was observed in NCs than ethanol extract (EE) (under UV-vis light treatment) and higher carotenoids retention (%) was observed in NCs compared to EE and data already published on the stability of non-encapsulated carotenoids (under thermal treatment). In addition, NCs when exposed to UV-vis light treatment had higher activation energy and lower constant rate (k) than EE. In conclusion, nanoencapsulation offers greater stability to the ␤-carotene, ␣-carotene, and lutein upon exposure to conditions similar to those used in the food processing (heat) and storage (UV-vis light).

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“…Few natural pigments, i.e., lutein, riboflavin, curcumin, β-carotene, gardenia yellow, and opuntia betaxanthins showed thermal stabilities and used as natural yellow colorants in various foods. [52] Contrary to this, betaxanthins and riboflavin degraded rapidly as temperature increased. Gardenia yellow and curcumin showed intermediate thermal stability.…”

Section: Anthocyaninsmentioning

confidence: 96%

“…Gardenia yellow and curcumin showed intermediate thermal stability. [52] Cyanidin and its glycosides belong to the anthocyanins, which are widespread class of water-soluble plant compounds. These are responsible for the brilliant color (red, orange, and blue) of fruits and flowers.…”

Section: Anthocyaninsmentioning

confidence: 99%

Untitled

Upadhyay¹

2018

IJGP

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Present review article explains the dietary use of plant pigments and therapeutic effects against cancer. Important plant pigments such as anthocyanins, lycopene, carotenoids, chlorophyll, and betalains are explained for their anticancer effects. Plant pigments are secondary metabolites which obstruct cancer cell proliferation; stop growth and cell division in cancer cells. These inhibit cellular processes in cancer cells such as signaling pathways, cell cycle, induce apoptosis, and autophagy. Besides, anticancer activity these also assist in controlling high blood pressure, obesity, hyperglycemia, hypercholesterolemia, and restore cardiovascular problems. A full series of pigments is available in various plants families which might show protective effects against cancer. Plant pigments are edible, nutritionally rich and therapeutically suitable. Due to their health-promoting effects there is a growing public interest to consume green vegetables, fruits, sprouted seeds, pigmented cereals, and processed low energy antioxidative functional food. For widening their use, these could be harvested using recombinant gene technology to add to processed foods as a coloring agent. Plant pigments as natural plant products or its by-products are highly useful for the development of a large variety of functional foods, digestive ingredients, additives, as well as cosmetic products. These could be naturally added to genetically suitable modified foods by applying genomic tools. No doubt plant secondary metabolites will also fulfill needs of present-day medicine and show great promise for the future.

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Comparative Thermal Degradation Patterns of Natural Yellow Colorants Used in Foods

Cited by 40 publications

References 22 publications

Effect of Surfactant Concentrations on Physicochemical Properties and Functionality of Curcumin Nanoemulsions Under Conditions Relevant to Commercial Utilization

Effect of Surfactant Concentrations on Physicochemical Properties and Functionality of Curcumin Nanoemulsions Under Conditions Relevant to Commercial Utilization

Thermal and ultraviolet–visible light stability kinetics of co-nanoencapsulated carotenoids

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