Quality Evaluation of Pork with Various Freezing and Thawing Methods

Ku, Su Kyung; Jeong, Ji Yun; Park, Jong Dae; Jeon, Ki Hong; Kim, Eun Mi; Kim, Young Boong

doi:10.5851/kosfa.2014.34.5.597

Cited by 20 publications

(12 citation statements)

References 25 publications

(24 reference statements)

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“…The cooking loss of the meat was determined for the three muscles types (thigh, drumstick and breast) as described by (Ku et al, 2014) with minor modifications. The samples were weighed and heated at 75°C in a water bath for 25minutes, and each cooked sample was cooled to room temperature, blotted dry and weighed.…”

Section: Methodsmentioning

confidence: 99%

“…Cooking loss (%) = {(weight before cook − weight after cook)/ weight before cook} × 100 Likewise, the thawing loss for the three muscles types (thigh, drumstick and breast) were determined by thawing the samples at room temperature for 3 hours as described by (Ku et al, 2014) with minor modifications. The difference between the initial weight and the final weights was used in calculating the thaw loss as:…”

Section: Methodsmentioning

confidence: 99%

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Meat quality and consumer acceptability of broiler chickens fed different levels of monosodium glutamate (MSG)

Adetunji

Olarotimi

Adu

et al. 2019

Tavukçuluk Araştırma Dergisi

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The objective of this study was to evaluate the effect of monosodium glutamate (MSG) inclusion in broiler diet on meat quality of broiler chickens for 8 weeks. A total of 300 day old mixed sexed Abor-acre chicks were randomly allocated to six treatments with five replicates per treatment and ten birds per replicate in a completely randomized experimental design. Six administration levels of monosodium glutamate (0.00, 0.25, 0.50, 0.75, 1.00 and 1.25 g MSG/kg diet) were added as taste enhancing additive in the diet at both starter and finisher phases. Four birds (unsexed) per replicate were slaughtered at the end of the trial period for meat quality evaluation. The result revealed fat and crude protein contents of the meat and palatability of the thigh muscle were significantly influenced by MSG, but the oxidative stability, moisture, thawing and cooking loss were not significantly influenced by the dietary treatments. In summary, the palatability of chicken meat from broilers fed diet with MSG inclusion up to 0.75 g MSG/kg diet was enhanced, and fat content was reduced with dietary inclusion of MSG.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Meat quality and consumer acceptability of broiler chickens fed different levels of monosodium glutamate (MSG)

Adetunji

Olarotimi

Adu

et al. 2019

Tavukçuluk Araştırma Dergisi

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show abstract

“…In these samples, microscopic observations showed large spaces within the muscle fibers, whereas these spaces in the magnetically frozen samples were small and scattered throughout the muscle fibers. Kim and others (,b), Ku and others (), and Choi and others () reported reduced total freezing times and improved quality attributes in beef, pork, and chicken samples frozen in a magnetic freezer (ABI Co., Ltd.) at –55 °C compared with samples frozen in an air blast freezer at –45 °C. However, as freezer temperatures were not the same, it is not possible to deduce whether the improvements detected were produced by the MF or by the lower temperature applied.…”

Section: Experimental Data About the Effects Of Mfs On Freezingmentioning

confidence: 97%

“…The user can program different “CAS conditions” (0% to 100% CAS) at the control panel, but the MF intensities and frequencies associated to these “CAS conditions” are not specified. Measurements with devices not usually employed in freezing research (teslameters and oscilloscopes, for example) are needed to correctly describe commercial equipment and, for this reason, many authors do not report these data (Kim and others ,b; Ku and others ; Choi and others ). Therefore, the experimental conditions of assays published in the literature must be analyzed carefully and the results should be treated with caution before drawing conclusions.…”

Section: Experimental Data About the Effects Of Mfs On Freezingmentioning

confidence: 99%

Effects of Magnetic Fields on Freezing: Application to Biological Products

Otero

Rodríguez

Pérez‐Mateos

et al. 2016

Comp Rev Food Sci Food Safe

120

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Magnetic freezing is nowadays established as a commercial reality mainly oriented towards the food market. According to advertisements, magnetic freezing is able to generate tiny ice crystals throughout the frozen product, prevent cell destruction, and preserve the quality of fresh food intact after thawing. If all these advantages were true, magnetic freezing would represent a significant advance in freezing technology, not only for food preservation, but also for cryopreservation of biological specimens such as cells, tissues, and organs. Magnetic fields (MFs) are supposed to act directly on water by orientating, vibrating, and/or spinning molecules to prevent them from clustering and, thus, to promote supercooling. However, many doubts exist about the real effects of MFs on freezing and the science behind the potential mechanisms involved. To provide a basis for extending the understanding of magnetic freezing, this paper presents a critical review of the materials published in the literature up to now, including both patents and experimental results. After examining the information available, it was not possible to discern whether MFs have an appreciable effect on supercooling, freezing kinetics, ice crystals, quality, and/or viability of the frozen products. Experiments described in the literature frequently fail to identify and/or control all the factors that can play a role in magnetic freezing. Moreover, many of the comparisons between magnetic and conventional freezing are not correctly designed to draw valid conclusions, and wide ranges of MF intensities and frequencies are unexplored. Therefore, more rigorous experimentation and further evidence are needed to confirm or reject the efficacy of MFs in improving the quality of frozen products.

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“…Even though the freezing rates achieved in each device were very different, the authors only found minor differences among the samples. By contrast, Kim et al (2013a), Kim et al (2013b), Ku et al (2014), and Choi et al (2015) froze beef, pork, and chicken samples in both a CAS freezer at −55 °C and an air-blast freezer at −45 °C. They concluded that electromagnetic freezing reduced the total freezing times and preserved the quality attributes of the samples better than air-blast freezing.…”

Section: Introductionmentioning

confidence: 93%

Electromagnetic freezing: Effects of weak oscillating magnetic fields on crab sticks

Otero

Pérez‐Mateos

Rodríguez

et al. 2017

Journal of Food Engineering

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Since the earlier 2000s, electromagnetic freezers have been sold all over the world. According to the manufacturers, the oscillating magnetic fields (OMFs) applied by these devices are capable of avoiding ice damage in frozen foods. To assess the effectiveness of OMFs in preserving food quality, we froze crab sticks in a commercial electromagnetic freezer, both with (<2 mT, 6-59 Hz) and without OMF application. Crab sticks were also frozen in a conventional freezer, both with static-and forced-air conditions, to compare electromagnetic freezing with conventional methods. After 24 h and 1, 3, 6, 9, and 12 months of storage, we did not find any effect of the OMFs on the drip loss, water-holding capacity, toughness, and whiteness of the crab sticks frozen in the electromagnetic device. Moreover, no advantage of electromagnetic freezing over air-blast freezing was detected at the conditions tested. More experiments at larger magnetic field strength and wider frequency ranges are needed to have a complete view of the potential effects of OMFs on food freezing.

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Quality Evaluation of Pork with Various Freezing and Thawing Methods

Cited by 20 publications

References 25 publications

Meat quality and consumer acceptability of broiler chickens fed different levels of monosodium glutamate (MSG)

Meat quality and consumer acceptability of broiler chickens fed different levels of monosodium glutamate (MSG)

Effects of Magnetic Fields on Freezing: Application to Biological Products

Electromagnetic freezing: Effects of weak oscillating magnetic fields on crab sticks

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