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Augusto PED, Soares BMC, Castanha N. 2018. Conventional Technologies of Food Preservation. In Innovative Technologies for Food Preservation, eds. Barba FJ, Sant'Ana AS, Orlien V, Koubaa M. UK: Academic Press. pp. 3−23 https://doi.org/10.1016/B978-0-12-811031-7.00001-7

Demirdöven A, Baysal T. 2008. The use of ultrasound and combined technologies in food preservation. Food Reviews International 25:1−11

Vahmani P, Ponnampalam EN, Kraft J, Mapiye C, Bermingham EN, et al. 2020. Bioactivity and health effects of ruminant meat lipids. Meat Science 165:108114

Cao C, Xiao Z, Ge C, Wu Y. 2022. Application and research progress of proteomics in chicken meat quality and identification: a review. Food Reviews International 38:313−34

Riovanto R, De Marchi M, Cassandro M, Penasa M. 2012. Use of near infrared transmittance spectroscopy to predict fatty acid composition of chicken meat. Food Chemistry 134:2459−64

Le Bihan-Duval E, Debut M, Berri CM, Sellier N, Santé-Lhoutellier V, et al. 2008. Chicken meat quality: genetic variability and relationship with growth and muscle characteristics. BMC Genetics 9:53

Qiu L, Zhang M, Chitrakar B, Bhandari B. 2020. Application of power ultrasound in freezing and thawing processes: Effect on process efficiency and product quality. Ultrasonics Sonochemistry 68:105230

Abdalhai MH, Bashari M, Lagnika C, He Q, Sun X. 2014. Effect of ultrasound treatment prior to vacuum and modified atmosphere packaging on microbial and physical characteristics of fresh beef. Journal of Food and Nutrition Research 2:312−20

Rastogi NK. 2011. Opportunities and challenges in application of ultrasound in food processing. Critical Reviews in Food Science and Nutrition 51:705−22

Stoica M, Mihalcea L, Borda D, Alexe P. 2013. Non-thermal novel food processing technologies. An overview. Journal of Agroalimentary Processes and Technologies 19:212−17

Alarcon-Rojo AD, Peña-González E, García-Galicia I, Carrillo-López L, Huerta-Jiménez M, et al. 2018. Ultrasound application to improve meat quality. In Descriptive Food Science, eds. Díaz AV, García-Gimeno RM. London: IntechOpen. pp. 153−72. https://doi.org/10.5772/intechopen.73156

Chemat F, Zill-e-Huma, Khan MK. 2011. Applications of ultrasound in food technology: processing, preservation and extraction. Ultrasonics Sonochemistry 18:813−35

Higuera-Barraza OA, Del Toro-Sanchez CL, Ruiz-Cruz S, Márquez-Ríos E. 2016. Effects of High-energy ultrasound on functional properties of protein. Ultrasonics Sonochemistry 31:558−62

Yu Z, Su Y, Zhang Y, Zhu P, Mei Z, et al. 2021. Potential use of ultrasound to promote fermentation, maturation, and properties of fermented foods: A review. Food Chemistry 357:129805

Leal-Ramos MY, Alarcon-Rojo AD, Mason TJ, Paniwnyk L, Alarjah M. 2011. Ultrasound-enhanced mass transfer in Halal compared with non-Halal chicken. Journal of the Science of Food and Agriculture 91:130−33

Leong T, Ashokkumar M, Kentish S. 2011. The fundamentals of power ultrasound − A review. Acoustics Australia 39:54−62

Kang D, Jiang Y, Xing L, Zhou G, Zhang W. 2017. Inactivation of Escherichia coli O157: H7 and Bacillus cereus by power ultrasound during the curing processing in brining liquid and beef. Food Research International 102:717−27

Xiong G, Fu X, Pan D, Qi J, Xu X. et al. 2020. Influence of ultrasound-assisted sodium bicarbonate marination on the curing efficiency of chicken breast meat. Ultrasonics Sonochemistry 60:104808

Sun Y, Sun J, Li P, Mu H, Wang B, et al. 2019. Synergetic effect of ultrasound and sodium hypochlotite treatment on quality of chilled chicken breast meat. Food Science 40:262−68

Zou Y, Shi H, Xu P, Jiang D, Zhang X. et al. 2019. Combined effect of ultrasound and sodium bicarbonate marination on chicken breast tenderness and its molecular mechanism. Ultrasonics Sonochemistry 59:104735

Smith DP. 2011. Effect of ultrasonic marination on broiler breast meat quality and Salmonella contamination. International Journal of Poultry Science 10:757−59

Chang H, Xu X, Zhou G, Li C, Huang M. 2012. Effects of characteristics changes of collagen on meat physicochemical properties of beef semitendinosus muscle during ultrasonic processing. Food and Bioprocess Technology 5:285−29

Zhang M, Wang D, Xu X, Xu W. 2019. Comparative proteomic analysis of proteins associated with water holding capacity in goose muscles. Food Research International 116:354−61

John L, Cornforth D, Carpenter CE, Sorheim O, Pettee BC, et al. 2004. Comparison of color and thiobarbituric acid values of cooked hamburger patties after storage of fresh beef chubs in modified atmospheres. Journal of Food Science 69:C608−C614

Peña-González EM, Alarcón-Rojo AD, Rentería A, García I, Santellano E, et al. 2017. Quality and sensory profile of ultrasound-treated beef. Italian Journal of Food Science 29:463−75

Nair MN, Costa-Lima BRC, Scilling MW, Suman SP. 2017. Proteomics of color in fresh muscle foods. In Proteomics in Food Science. From Farm to Fork, ed. Colgrave ML. UK: Academic Press. 163-175 https://doi.org/10.1016/B978-0-12-804007-2.00010-2

Caraveo O, Alarcon-Rojo AD, Renteria A, Santellano E, Paniwnyk L. 2015. Physicochemical and microbiological characteristics of beef treated with high-intensity ultrasound and stored at 4 °C. Journal of Science of Food and Agriculture 95:2487−93

Stadnik J, Dolatowski ZJ. 2011. Influence of sonication on Warner-Bratzler shear force, colour and myoglobin of beef (m. semimembranosus). European Food Research and Technology 233:553

Sikes AL, Mawson R, Stark J, Warner R. 2014. Quality properties of pre-and post-rigor beef muscle after interventions with high frequency ultrasound. Ultrasonics Sonochemistry 21:2138−43

Peña-Gonzalez E, Alarcon-Rojo AD, Garcia-Galicia I, Carrillo-Lopez L, Huerta-Jimenez M. 2019. Ultrasound as a potential process to tenderize beef: Sensory and technological parameters. Ultrasonics Sonochemistry 53:134−41

de Lima Alves L, Stefanello da Silva M, Martins Flores DR, Rodrigues Athayde D, Roggia Ruviaro A, et al. 2018. Effect of ultrasound on the physicochemical and microbiological characteristics of Italian salami. Food Research International 106:363−73

Alarcon-Rojo AD, Carrillo-Lopez LM, Reyes-Villagrana R, Huerta-Jiménez M, Garcia-Galicia IA. 2019. Ultrasound and meat quality: A review. Ultrasonics Sonochemistry 55:369−82

Huff-Lonergan E, Lonergan SM. 2005. Mechanisms of water-holding capacity of meat: the role of postmortem biochemical and structural changes. Meat Science 71:194−204

Stadnik J, Dolatowski ZJ. 2008. Influence of sonication on the oxidative stability of beef. Annals of the Meat and Fat Industry Institute 47:63−68

Jayasooriya SD, Bhandari BR, Torley P, D'arcy BR. 2004. Effect of high-power ultrasound waves on properties of meat: A review. International Journal of Food Properties 7:301−319

Jayasooriya SD, Torley P, D’arcy BR, Bhandari BR. 2007. Effect of high-power ultrasound and ageing on the physical properties of bovine Semitendinosus and Longissimus muscles. Meat Science 75:628−39

Novaković, S. and Tomašević, I. 2017. A comparison between Warner-Bratzler shear force measurement and texture profile analysis of meat and meat products: A review. IOP Conference Series: Earth and Environmental Science, 59th International Meat Industry Conference MEATCON2017, Zlatibor, Serbia, 2017, Volume 85: 012063. UK: IOP Publishing. http://doi.org/10.1088/1755-1315/85/1/012063

Alarcon-Rojo AD, Janacua H, Rodriguez JC, Paniwnyk L, Mason TJ. 2015. Power ultrasound in meat processing. Meat Science 107:86−93

Xiong G, Zhang L, Zhang W, Wu J. 2012. Influence of ultrasound and proteolytic enzyme inhibitors on muscle degradation, tenderness, and cooking loss of hens during aging. Czech Journal of Food Sciences 30:195−205

Byrne DV, Bredie WLP, Mottram DS, Martens M. 2002. Sensory and chemical investigations on the effect of oven cooking on warmed-over flavour development in chicken meat. Meat Science 61:127−39

Ashokkumar M. 2011. The characterization of acoustic cavitation bubbles – an overview. Ultrasonics Sonochemistry 18:864−72

Chang HC, Wong RX. 2012. Textural and biochemical properties of cobia (Rachycentron canadum) sashimi tenderised with the ultrasonic water bath. Food Chemistry 132:1340−45

Lorenzo JM, Cittadini A, Munekata PE, Domínguez R. 2015. Physicochemical properties of foal meat as affected by cooking methods. Meat Science 108:50−54

Cichoski AJ, Rampelotto C, Silva MS, de Moura HC, Terra NN, et al. 2015. Ultrasound-assisted post-packaging pasteurization of sausages. Innovative Food Science & Emerging Technologies 30:132−37

Zou Y, Kang D, Liu R, Qi J, Zhou G, et al. 2018. Effects of ultrasonic assisted cooking on the chemical profiles of taste and flavor of spiced beef. Ultrasonics Sonochemistry 46:36−45