The effect of non-thermal (HPP and semi-HPP-CO2) and thermal (flash pasteurization, FP) treatments on phytonutrients of flowable smoothie prepared from quadrable vegetable blends (FQVS) was investigated using multidimensional methods. First, FQVS gained an acceptability sensorial index (85.7%) compared with other formulas. FQVS/semi-HPP-CO2 showed a greater microbial stability during storage (0-30 d) compared to HPP and FP. Fructose and glucose highly declined than sucrose in all smoothies, where semi-HPP-CO2 steadily declined this reduction during storage. LC/MS-MS analysis showed that semi-HPP-CO2 preserved most of FQVS's phytonutrients and their antioxidant effects measured by ORAC and oxidative enzymes inhibition assays. Semi-HPP-CO2 acquired the lowest apparent viscosity among different FQVS smoothies, showing its post-processing flowability behavior. Most importantly, semi-HPP-CO2 predicted a reduced power consumption for HPP and reduced the gas emission. In conclusion, blending different vegetables assisted with semi-HPP-CO2 could be a novel approach to produce storage-stable smoothies with adequate amounts of phytonutrients and sensorial scores.
Keywords: Carbon finger; Flowable smoothie; Phytonutrients; Quadrable matrices; Semi-high pressure.
© 2024 The Authors.