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W4313897769 startingPage "159" @default.
W4313897769 abstract "Sage (Salvia lavandulifolia Vahl) aqueous extracts (SE) obtained from distillation by-products were assessed as antioxidants for nutritionally enhanced jelly candies. Two experimental SEs with a different content of phenolic acids and flavonoids were tested: (i) SE38 (37.6 mg/g) and (ii) SE70 (69.8 mg/g), with salvianic and rosmarinic acids as main polyphenols, respectively. Flavour alteration, stability of sage polyphenols, physical quality traits and antioxidant capacity (AC) were studied in strawberry candies formulated without sugars and enriched with SEs at 0.25, 0.50 and 0.75 g/kg. Despite their different quantitative composition, SE38 and SE70 provided similar antioxidant properties, which were dose dependent. Salvianic and rosmarinic acids were stable without degrading to candy processing (up to 80 °C), keeping their antioxidant potential. There were no relevant differences in flavour or physical traits (pH, °Brix and CIELab colour) between untreated and SE-enriched strawberry candies. The addition of 0.75 g SE/kg resulted in relevant increases of candy AC: (i) from 30 to 38 mg GAE/100 g (total phenolics); (ii) from 10 to 17 mg TE/100 g (DPPH• radical scavenging assay); (iii) from 5 to 13 mg TE/100 g (ABTS·+ radical scavenging assay); (iv) from 84 to 163 µmol Fe2+/100 g (FRAP capacity) and (v) from to 75 to 83% (inhibition of deoxyribose damage). Sage distillation by-products can be revalorised as a source of natural antioxidants to produce healthier candies." @default.
W4313897769 created "2023-01-10" @default.
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W4313897769 date "2023-01-10" @default.
W4313897769 modified "2023-10-17" @default.
W4313897769 title "Revalorisation of Sage (Salvia lavandulifolia Vahl) By-Product Extracts as a Source of Polyphenol Antioxidants for Novel Jelly Candies" @default.
W4313897769 cites W1171265304 @default.
W4313897769 cites W1603845842 @default.
W4313897769 cites W1964952272 @default.
W4313897769 cites W1967451066 @default.
W4313897769 cites W1977420181 @default.
W4313897769 cites W1980863651 @default.
W4313897769 cites W2012991711 @default.
W4313897769 cites W2013650023 @default.
W4313897769 cites W2019553595 @default.
W4313897769 cites W2020538986 @default.
W4313897769 cites W2023714210 @default.
W4313897769 cites W2025874056 @default.
W4313897769 cites W2033219866 @default.
W4313897769 cites W2044638222 @default.
W4313897769 cites W2046030213 @default.
W4313897769 cites W2048508255 @default.
W4313897769 cites W2051748418 @default.
W4313897769 cites W2065853716 @default.
W4313897769 cites W2071687000 @default.
W4313897769 cites W2074400209 @default.
W4313897769 cites W2078312816 @default.
W4313897769 cites W2079966354 @default.
W4313897769 cites W2087000526 @default.
W4313897769 cites W2104050252 @default.
W4313897769 cites W2116060738 @default.
W4313897769 cites W2148944322 @default.
W4313897769 cites W2165292984 @default.
W4313897769 cites W2167876137 @default.
W4313897769 cites W2293935230 @default.
W4313897769 cites W2429038696 @default.
W4313897769 cites W2569363759 @default.
W4313897769 cites W2572637360 @default.
W4313897769 cites W2599674141 @default.
W4313897769 cites W2621508719 @default.
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W4313897769 cites W2750858832 @default.
W4313897769 cites W2772756714 @default.
W4313897769 cites W2779917396 @default.
W4313897769 cites W2791924373 @default.
W4313897769 cites W2888356397 @default.
W4313897769 cites W2891989053 @default.
W4313897769 cites W2905231806 @default.
W4313897769 cites W2905493353 @default.
W4313897769 cites W2907169174 @default.
W4313897769 cites W2917595940 @default.
W4313897769 cites W2970845799 @default.
W4313897769 cites W2981858654 @default.
W4313897769 cites W2982134077 @default.
W4313897769 cites W2987405649 @default.
W4313897769 cites W3006168664 @default.
W4313897769 cites W3014213628 @default.
W4313897769 cites W3022422437 @default.
W4313897769 cites W3022765821 @default.
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W4313897769 cites W3093932947 @default.
W4313897769 cites W3113040575 @default.
W4313897769 cites W3121472461 @default.
W4313897769 cites W3123487956 @default.
W4313897769 cites W3126881528 @default.
W4313897769 cites W3210352067 @default.
W4313897769 cites W3213200552 @default.
W4313897769 cites W4200061573 @default.
W4313897769 cites W4205936982 @default.
W4313897769 cites W4206196191 @default.
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W4313897769 cites W4221122961 @default.
W4313897769 cites W4225120374 @default.
W4313897769 cites W4281961811 @default.
W4313897769 doi "https://doi.org/10.3390/antiox12010159" @default.
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