Sonodegradation of cyanidin‐3‐glucosylrutinoside: degradation kinetic analysis and its impact on antioxidant capacity in vitro

BACKGROUND As an alternative preservation method for thermal treatment, ultrasound comprises a novel non‐thermal processing technology that can significantly avoid undesirable nutritional changes. However, the recent literature indicates that anthocyanin degradation occurs when ultrasound is applied in juice at high amplitude parameters. Such work has mainly focussed on the effect of ultrasound on stability, the antioxidant capacity of cyanidin‐3‐glucosylrutinoside (Cy‐3‐glc‐rut) and the correlation between anthocyanin degradation and · OH generation in a simulated system. RESULTS The spectral intensities of Cy‐3‐glc‐rut at 518 and 282 nm decreased with increasing ultrasound power and treatment time. The degradation of Cy‐3‐glc‐rut was consistent with first‐order reaction kinetics ( r 2  > 0.9000) and there was a good linear correlation between anthocyanin degradation and hydroxyl radical formation induced by ultrasound ( r 2  = 0.9258). Moreover, a decrease in the antioxidant activity of Cy‐3‐glc‐rut after ultrasound evaluated by the 1,1‐diphenyl‐2‐picrylhydrazyl and ferric reducing antioxidant power methods was observed. CONCLUSION Overall, the results of the present study show that ultrasound will accelerate the degradation of Cy‐3‐glc‐rut with the growth of power over time. © 2016 Society of Chemical Industry