Towards an improved Global Antioxidant Response method (GAR+): Physiological-resembling in vitro antioxidant capacity methods

•We describe three new antioxidant methods under physiologically-relevant conditions.•TEACOH determine the scavenging capacity of foods against OH radicals.•TEACAAPH determine the scavenging capacity of foods against AAPH radicals.•GEACRED measures the global reducing capacity of the sample.•The new...

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Bibliographic Details
Published in:Food chemistry 2018-01, Vol.239, p.1263-1272
Main Authors: Pérez-Burillo, S., Rufián-Henares, J.A., Pastoriza, S.
Format: Article
Language:English
Subjects:
ABTS
Antioxidant capacity
Antioxidants - chemistry
Beverages
FRAP
Humans
In Vitro Techniques
ORAC
Oxidation-Reduction
Reproducibility of Results
Tea
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Summary:•We describe three new antioxidant methods under physiologically-relevant conditions.•TEACOH determine the scavenging capacity of foods against OH radicals.•TEACAAPH determine the scavenging capacity of foods against AAPH radicals.•GEACRED measures the global reducing capacity of the sample.•The new methods were tested in vitro with different foods and in vivo. Many methods have been developed to measure the antioxidant capacity of foods under non physiological-relevant conditions. In this study, three methods (TEACOH, GEACRED and TEACAAPH) are developed to measure antioxidant capacity at physiological pH, using indigo carmine as a redox dye. TEACOH and TEACAAPH determine foodstuffs’ scavenging capacity against hydroxyl (OH) and AAPH radicals, while the third method measures the global reducing capacity of the sample. The results obtained for commercial teas, commercial beverages containing tea as the main ingredient and different solid foods (spinach, onion, salami, etc.) were compared with well-established protocols. The new methods demonstrated good linearity-reproducibility, providing reliable data about the antioxidant capacity of foods under physiological-resembling conditions. The new methods were also useful for evaluating the antioxidant capacity of human plasma after acute intake of tea. The physiological-resembling conditions of these assays and the use of absorbance readings make them suitable for application by any laboratory.
ISSN:0308-8146
1873-7072
DOI:10.1016/j.foodchem.2017.07.063