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Challenges and processing strategies to produce high quality frozen meat

journal contribution
posted on 2024-08-01, 21:35 authored by Renyu ZhangRenyu Zhang, Carolina Realini CujoCarolina Realini Cujo, Yuan H. Brad Kim, Mustafa FaroukMustafa Farouk

Freezing is an effective means to extend the shelf-life of meat products. However, freezing and thawing processes lead to physical (e.g., ice crystals formation and freezer burn) and biochemical changes (e.g., protein denaturation and lipid oxidation) in meat resulting in loss of quality. Over the last two decades, several attempts have been made to produce thawed meat with qualities similar to that of fresh meat to no avail. This is due to the fact that no single technique exists to date that can mitigate all the quality challenges caused by freezing and thawing. This is further confounded by the consumer perception of frozen meat as lower quality compared to equivalent fresh-never-frozen meat cuts. Therefore, it remains challenging for the meat industry to produce high quality frozen meat and increase consumer acceptability of frozen products. This review aimed to provide an overview of the applications of novel freezing and thawing technologies that could improve the quality of thawed meat including deep freezing, high pressure, radiofrequency, electro-magnetic resonance, electrostatic field, immersion solution, microwave, ohmic heating, and ultrasound. This review will also discuss the development in processing strategies such as optimising the ageing of meat pre- or post-freezing, and the integration of freezing and thawing in one process/regime to collapse the difference in quality between thawed meat and fresh-never-frozen equivalents.

Funding

AgResearch Strategic Science Investment Funds, SSIF-A27235

History

Rights statement

© 2023 Elsevier Ltd. All rights reserved.

Publication date

2023-08-09

Project number

  • PRJ0376680

Language

  • English

Does this contain Māori information or data?

  • No

Publisher

Elsevier

Journal title

Meat Science

ISSN

0309-1740

Volume/issue number

205

Page numbers

109311

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