The Impact of Nonthermal Technologies on the Microbiological Quality of Juices: A Review

Overview

Journal Compr Rev Food Sci Food Saf

Specialties Biotechnology
Nutritional Sciences

Date 2020 Dec 22

PMID 33350080

Citations 35

Authors

Ume Roobab

Rana Muhammad Aadil

Ghulam Muhammad Madni

Alaa El-Din Bekhit

Affiliations

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Abstract

Fruit and vegetable juices are rich sources of nutrients that support microbiological growth and ultimately undergo rapid deterioration of safety and quality. The loss of nutritional quality of juices due to intensive thermal processing is a major problem encountered during the treatment of commercially preserved liquid foods. Conventional thermal processing technologies inactivate microorganisms and enzymes and extend the shelf life of foods but exert negative effects on nutritional and organoleptic properties of juices, for example, a loss of vitamins, of a desirable flavor, and of bioactive compounds and development of different sensory profiles as a result of heating. Nonthermal technologies including ultrasonication, a pulsed electric field, high-pressure processing, irradiation, and their combinations are suitable alternatives for achieving the same preservation effect without the adverse effects of heat on the quality of juices and meet consumer demand for clean-label, safe, and wholesome products without compromising their nutritional properties.

Citing Articles

Enhanced Analysis of Carcinogens and Nutritional Profile of by Employing Pulsed Electric Field.

Batool Z, Sameen D, Wen D, Hu S, Roobab U, Li B Food Sci Nutr. 2024; 12(12):10576-10591.

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Impact of Conventional Pasteurization, High Temperature Short Time, Ultra-High Temperature, and Storage Time on Physicochemical Characteristics, Bioactive Compounds, Antioxidant Activity, and Microbiological Quality of Fruit Nectars.

Polak N, Kalisz S, Hac-Szymanczuk E, Kruszewski B Foods. 2024; 13(23).

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A Mathematical Model for the Combination of Power Ultrasound and High-Pressure Processing in the Inactivation of Inoculated in Orange Juice.

Rodriguez O, Orlien V, Amin A, Salucci E, Giannino F, Torrieri E Foods. 2024; 13(21).

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Acid Adaptation Enhances Tolerance of O157:H7 to High Voltage Atmospheric Cold Plasma in Raw Pineapple Juice.

Little A, Mendonca A, Dickson J, Fortes-Da-Silva P, Boylston T, Lewis B Microorganisms. 2024; 12(6).

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High-Power Ultrasound (HPU) and Pulsed Electric Field (PEF) in the Hurdle Concept for the Preservation of Antioxidant Bioactive Compounds in Strawberry Juice-A Chemometric Evaluation-Part II.

Bebek Markovinovic A, Stulic V, Putnik P, Bekavac N, Pavlic B, Milosevic S Foods. 2024; 13(4).

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