The Use of Novel Technologies in Egg Processing
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Predrag Putnik | Danijela Bursać Kovačević | José M. Lorenzo | Sandra Zavadlav | Rubén Agregán | Paulo E. S. Munekata | Mirian Pateiro | J. Lorenzo | M. Pateiro | P. Putnik | P. E. Munekata | S. Zavadlav | R. Agregán | D. Bursać Kovačević
[1] E. Gayán,et al. Evaluation of pulsed electric fields technology for liquid whole egg pasteurization. , 2010, Food microbiology.
[2] Jiyong Park,et al. Application of high pressure processing for prevention of greenish-gray yolks and improvement of safety and shelf-life of hard-cooked peeled eggs , 2018 .
[3] K. Yogesh. Pulsed electric field processing of egg products: a review , 2016, Journal of Food Science and Technology.
[4] Xiufang Bi,et al. Effects of combination treatments of lysozyme and high power ultrasound on the Salmonella typhimurium inactivation and quality of liquid whole egg. , 2019, Ultrasonics sonochemistry.
[5] E. Tůmová,et al. Effects of laying hens housing system on laying performance, egg quality characteristics, and egg microbial contamination , 2018 .
[6] C. Caner,et al. The effects of ozone, ultrasound and coating with shellac and lysozyme–chitosan on fresh egg during storage at ambient temperature – part 1: interior quality changes , 2019, International Journal of Food Science & Technology.
[7] N. Kondo,et al. Prediction of Poultry Egg Freshness Using Ultrasound , 2014 .
[8] Wei Zhao,et al. Effects of pulsed electric fields processing on stability of egg white proteins , 2014 .
[9] M. Jalali,et al. Microbial quality and prevalence of Salmonella and Listeria in eggs , 2012 .
[10] M. Nicoli,et al. Effect of pulsed light on selected properties of egg white , 2013 .
[11] C. Caner,et al. Maintaining functional properties of shell eggs by ultrasound treatment. , 2015, Journal of the science of food and agriculture.
[12] S. Setarehdan,et al. An Ultrasound Based Technique for the Determination of Poultry Egg Quality , 2018 .
[13] H. Neetoo,et al. Application of High Hydrostatic Pressure Technology for Processing and Preservation of Foods , 2012 .
[14] Gauri S. Mittal,et al. Inactivation of Salmonella enteritidis in liquid whole egg using combination treatments of pulsed electric field, high pressure and ultrasound , 2006 .
[15] K. Schneider,et al. Pulsed UV light as a postprocessing intervention for decontamination of hard‐cooked peeled eggs , 2014 .
[16] P. Bourke,et al. Microbiological interactions with cold plasma , 2017, Journal of applied microbiology.
[17] D. Dupont,et al. Pasteurisation of liquid whole egg: Optimal heat treatments in relation to its functional, nutritional and allergenic properties , 2017 .
[18] Songyi Lin,et al. Exploration of structure-activity relationship between IgG1 and IgE binding ability and spatial conformation in ovomucoid with pulsed electric field treatment , 2021 .
[19] H. Fuhrmann,et al. The effect of gaseous ozone treatment on egg components. , 2010, Journal of the science of food and agriculture.
[20] S. Ricke,et al. Salmonella Enteritidis in shell eggs: Current issues and prospects for control , 2012 .
[21] Mohsen Gavahian,et al. Prospective Applications of Cold Plasma for Processing Poultry Products: Benefits, Effects on Quality Attributes, and Limitations. , 2019, Comprehensive reviews in food science and food safety.
[22] P. Silcock,et al. Pulsed electric fields treatment at different pH enhances the antioxidant and anti-inflammatory activity of ovomucin-depleted egg white. , 2019, Food Chemistry.
[23] Xin-An Zeng,et al. Non‐thermal technologies and its current and future application in the food industry: a review , 2018, International Journal of Food Science & Technology.
[24] K. Hsu,et al. Changes in physicochemical properties of egg white and yolk proteins from duck shell eggs due to hydrostatic pressure treatment. , 2010, Poultry science.
[25] Rita S. Inácio,et al. Pulsed Electric Field Processing of Fruit Juices , 2018 .
[26] I. Boyaci,et al. Surface decontamination of eggshells by using non-thermal atmospheric plasma. , 2018, International journal of food microbiology.
[27] D. D'Souza,et al. High Intensity Ultrasound for Salmonella Enteritidis Inactivation in Culture and Liquid Whole Eggs. , 2018, Journal of food science.
[28] L. Palmieri,et al. Chapter 13 – High-intensity Pulsed Light Technology , 2014 .
[29] I. Hernando,et al. Physical and structural changes in liquid whole egg treated with high-intensity pulsed electric fields. , 2011, Journal of food science.
[30] Mohammed M. Farid,et al. A review on recent development in non-conventional food sterilization technologies , 2016 .
[31] I. Álvarez,et al. Combination of pulsed electric fields, mild heat and essential oils as an alternative to the ultrapasteurization of liquid whole egg. , 2014, International journal of food microbiology.
[32] Anette McLeod,et al. Comparison of UV-C and Pulsed UV Light Treatments for Reduction of Salmonella, Listeria monocytogenes, and Enterohemorrhagic Escherichia coli on Eggs. , 2018, Journal of food protection.
[33] S. Condón,et al. Inactivation of Salmonella spp. in liquid whole egg using pulsed electric fields, heat, and additives. , 2012, Food microbiology.
[34] V. Puri,et al. Pulsed UV light inactivation of Salmonella enteritidis on eggshells and its effects on egg quality. , 2010, Journal of food protection.
[35] Anushree Priyadarshini,et al. Emerging food processing technologies and factors impacting their industrial adoption , 2018, Critical reviews in food science and nutrition.
[36] Chaitanya Sarangapani,et al. Cold Plasma: A novel Non-Thermal Technology for Food Processing , 2015, Food Biophysics.
[37] S. Mukhopadhyay,et al. The role of emerging technologies to ensure the microbial safety of fresh produce, milk and eggs , 2018 .
[38] Paul Chen,et al. Effects of intense pulsed light on Cronobacter sakazakii and Salmonella surrogate Enterococcus faecium inoculated in different powdered foods. , 2019, Food chemistry.
[39] C. Montanari,et al. Non-thermal atmospheric gas plasma device for surface decontamination of shell eggs , 2010 .
[40] K. Keener,et al. High voltage atmospheric cold plasma treatment of refrigerated chicken eggs for control of Salmonella Enteritidis contamination on egg shell , 2017 .
[41] V. Raghavan,et al. Impact of food processing on the structural and allergenic properties of egg white , 2018, Trends in Food Science & Technology.
[42] J. Arboleya,et al. Pulsed light technology for surface decontamination of eggs: Impact on Salmonella inactivation and egg quality , 2011 .
[43] E. Torlak,et al. Effect of ultrasonic treatment on reduction of Esherichia coli ATCC 25922 and egg quality parameters in experimentally contaminated hens' shell eggs. , 2013, Journal of the science of food and agriculture.
[44] I. Boyaci,et al. Effects of heat treatment parameters on liquid whole egg proteins. , 2017, Food chemistry.
[45] H. U. Hebbar,et al. Pulsed light processing of foods for microbial safety , 2017 .
[46] F. M. Silva,et al. Thermal pasteurization requirements for the inactivation of Salmonella in foods , 2012 .
[47] C. Németh,et al. Effect of high pressure treatment on liquid whole egg , 2012 .
[48] Z. Tu,et al. High-intensity ultrasound enhances the immunoglobulin (Ig)G and IgE binding of ovalbumin. , 2016, Journal of the science of food and agriculture.
[49] R. Zhou,et al. Effects of heating, autoclaving and ultra-high pressure on the solubility, immunoreactivity and structure of major allergens in egg , 2018 .
[50] O. Martín‐Belloso,et al. Pulsed Electric Field Processing of Fluid Foods , 2012 .
[51] Haiying Cui,et al. Enhancing the antibacterial activity of thyme oil against Salmonella on eggshell by plasma-assisted process , 2016 .
[52] A. Pilosof,et al. Functionality of egg white proteins as affected by high intensity ultrasound , 2012 .
[53] Wei Zhao,et al. Pulsed electric field (PEF)-induced aggregation between lysozyme, ovalbumin and ovotransferrin in multi-protein system. , 2015, Food chemistry.
[54] C. Caner,et al. The effects of ozone, ultrasound and coating with shellac and lysozyme–chitosan on fresh egg during storage at ambient temperature. Part II: microbial quality, eggshell breaking strength and FT‐NIR spectral analysis , 2020 .
[55] A. Demirci,et al. Inactivation of Escherichia coli and Salmonella in liquid egg white by pulsed UV light and its effects on quality , 2020, Journal of Food Process Engineering.
[56] Wei Zhao,et al. Electrochemical reaction and oxidation of lecithin under pulsed electric fields (PEF) processing. , 2012, Journal of agricultural and food chemistry.
[57] Michael Ngadi,et al. Inactivation of Escherichia coli O157:H7 in liquid whole egg using combined pulsed electric field and thermal treatments , 2006 .
[58] D. Lozano-Ojalvo,et al. Can food processing produce hypoallergenic egg? , 2020, Journal of food science.
[59] A. Yousef,et al. Decontamination of raw foods using ozone-based sanitization techniques. , 2011, Annual review of food science and technology.
[60] E. Gayán,et al. Inactivation of Salmonella Typhimurium and Staphylococcus aureus by pulsed electric fields in liquid whole egg , 2010 .
[61] Jianping Wu. Eggs and Egg Products Processing , 2014 .
[62] M. S. Aday,et al. Ozone treatment of shell eggs to preserve functional quality and enhance shelf life during storage. , 2016, Journal of the science of food and agriculture.
[63] Francisco J. Barba,et al. Pulsed electric fields as an alternative to thermal processing for preservation of nutritive and physicochemical properties of beverages: A review , 2018 .
[64] Kazuma Baba,et al. 強電界パルスを用いた液状全卵の低温殺菌;強電界パルスを用いた液状全卵の低温殺菌;Low-temperature Pasteurization of Liquid Whole Egg using Intense Pulsed Electric Fields , 2017 .
[65] J. Raso,et al. Design and evaluation of a high hydrostatic pressure combined process for pasteurization of liquid whole egg , 2012 .
[66] S. Sastry,et al. Effect of moderate electric field pretreatment in combination with ozonation on inactivation of Escherichia coli K12 in intact shell eggs , 2020, LWT.