AI Article Synopsis
- The study aimed to evaluate the osmodehydrofreezing (ODF) process for cherry tomatoes by examining various parameters of osmotic dehydration and freezing techniques.* -
- The optimal conditions for osmotic dehydration were found to be a 61.5% glycerol solution at 36 °C for 72 minutes, which resulted in improved color, firmness, and nutrient retention in the tomatoes.* -
- Frozen cherry tomatoes treated with ODF showed a significantly extended shelf life and maintained quality during storage at various temperatures, with validated models predicting nutrient degradation and sensory quality loss.*
Article Abstract
The objective was to review, using an integrated approach, all parameters related to osmotic dehydration, freezing, and frozen storage when assessing the advantages of the osmodehydrofreezing-ODF process. Peeled cherry tomatoes were treated at (T) 25, 35, and 45 °C (t) up to 180 min in glycerol-based OD-solution (50, 60, 70% /). OD was studied and optimized by applying the Response Surface Methodology, combined with selected desirability criteria to define the optimum process parameters. Water loss-WL, solid gain-SG, water activity reduction-a, texture and color changes were monitored during the process. Untreated and OD-treated at optimal OD conditions (C = 61.5%, T = 36 °C; t = 72 min) samples were frozen and stored at isothermal (T, -5, -8, -14, -23 °C) and non-isothermal temperature conditions (T, -7.3 °C). OD samples presented acceptable color, increased firmness, low drip loss and high vitamin C/lycopene retention during frozen storage. OD increased the shelf life of frozen cherry tomato (up to 3.5 times based on sensory quality loss). The kinetic models obtained for vitamin and lycopene degradation and sensory quality loss were validated at non-isothermal conditions.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11394192 | PMC |
| http://dx.doi.org/10.3390/foods13172689 | DOI Listing |
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