http://orcid.org/0000-0002-8045-9780
References
- Yao, L.; Zhou, W.; Wang, T.; Liu, M.; Yu, C. Quantification of Egg Yolk Contamination in Egg White Using UV/Vis Spectroscopy: Prediction Model Development and Analysis. Food Control 2014, 43, 88–97.
- Karoui, R.; Kemps, B.; Bamelis, F.; De Ketelaere, B.; Decuypere, E.; De Baerdemaeker, J. Methods to Evaluate Egg Freshness in Research and Industry: A Review. European Food Research Technology 2006, 222, 727–732.
- Dong, X.; Dong, J.; Peng, Y.; Tang, X. Comparative Study of Albumen pH and Whole Egg pH for the Evaluation of Egg Freshness. Spectroscopy Letters 2017, 50, 463–469.
- Huang, Q.; Qiu, N.; Ma, M. H.; Jin, Y. G.; Yang, H.; Geng, F.; Sun, S. G.; Sun, S. H. Estimation of Egg Freshness Using S-Ovalbumin as an Indicator. Poultry Science 2012, 91, 739–743.
- Caner, C.; Yüceer, M. Efficacy of Various Protein-Based Coating on Enhancing the Shelf Life of Fresh Eggs during Storage. Poultry Science 2015, 94, 1665–1677.
- Ragni, L.; Gradari, P.; Berardinelli, A.; Giunchi, A.; Guarnieri, A. Predicting Quality Parameter of Shell Eggs Using a Simple Technique Based on the Dielectric Properties. Biosystems Engineering 2006, 94, 255–262.
- Prieto, N.; Pawluczyk, O.; Dugan, M. E. R.; Aalhus, J. L. A Review of the Principles and Applications of near-Infrared Spectroscopy to Characterize Meat, Fat, and Meat Products. Applied Spectroscopy 2017, 71, 1403–1426.
- Aboonajmi, M.; Najafabadi, T. A. Prediction of Poultry Egg Freshness Using Vis-NIR Spectroscopy with Maximum Likelihood Method. International Journal of Food Properties 2014, 17, 2166–2176.
- Benson, I. B. The Characteristics and Scope of Continuous on-Line near Infrared Measurement. Spectroscopy Europe 1995, 7, 18–24.
- Narushin, V. G. Non-Destructive Measurements of Egg Parameters and Quality Characteristics. World’s Poultry Science Journal 1997, 53, 141–153.
- Berardinelli, A.; Giunchi, A.; Guarnieri, A.; Pezzi, F.; Ragni, L. Shell Egg Albumen Height Assessment by FT-NIR Spectroscopy. Transaction of the ASAE 2005, 48, 1426–1428.
- Zhao, J.; Lin, H.; Chen, Q.; Huang, X.; Sun, Z.; Zhou, F. Identification of Egg’s Freshness Using NIR and Support Vector Data Description. Journal of Food Engineering 2010, 98, 408–414.
- Lin, H.; Zhao, J.; Sun, L.; Chen, Q.; Zhou, F. Freshness Measurement of Eggs Using near Infrared (NIR) Spectroscopy and Multivariate Data Analysis. Innovative Food Science and Emerging Technologies 2011, 12, 182–186.
- Mehdizadeh, S. A.; Minaei, S.; Hancock, N. H.; Torshizi, M. A. K. An Intelligent System for Egg Quality Classification Based on Visible-Infrared Transmittance Spectroscopy. Information Processing in Agriculture 2014, 1, 105–114.
- Kemps, B. J.; Bamelis, F. R.; De Ketelaere, B.; Mertens, K.; Tona, K.; Decuypere, E. M.; De Baerdemaeker, J. G. Visible Transmission Spectroscopy for the Assessment of Egg Freshness. Journal of the Science of Food and Agriculture 2006, 86, 1399–1406.
- Abdel-Nour, N.; Ngadi, M.; Prasher, S.; Karimi, Y. Prediction of Egg Freshness and Albumen Quality Using Visible/near Infrared Spectroscopy. Food Bioprocess Technology 2011, 4, 731–736.
- Liu, Y.; Ying, Y.; Ouyang, A.; Li, Y. Measurement of Internal Quality in Chicken Eggs Using Visible Transmittance Spectroscopy Technology. Food Control 2007, 18, 18–22.
- Xu, L.; Yan, S. M.; Cai, C. B.; Yu, X. P. Nondestructive Discrimination of Lead (Pb) in Preserved Eggs (Pidan) by near-Infrared Spectroscopy and Chemometrics. Journal of Spectroscopy 2014, 2014, 1–7.
- Aboonajmi, M.; Saberi, A.; Najafabadi, T. A.; Kondo, N. Quality Assessment of Poultry Egg Based on Visible–Near Infrared Spectroscopy and Radial Basis Function Networks. International Journal of Food Properties 2016, 19, 1163–1172.
- Kemps, B. J.; Ketelaere, B. D.; Bamelis, F. R.; Mertens, K.; Decuypere, E. M.; Baerdemaeker, J. G. D.; Schwagele, F. Albumen Freshness Assessment by Combining Visible near Infrared Transmission and Low-Resolution Proton Nuclear Magnetic Resonance Spectroscopy. Poultry Science 2007, 86, 752–759.
- Giunchi, A.; Berardinelli, A.; Ragni, L.; Fabbri, A.; Silaghi, F. A. Non-Destructive Freshness Assessment of Shell Eggs Using FT-NIR Spectroscopy. Journal of Food Engineering 2008, 89, 142–148.
- Haugh, R. R. The Haugh Unit for Measuring Egg Quality. US Egg Poultry Magazine 1937, 43, 552–555.
- Monira, K. N.; Salahuddin, M.; Miah, G. Effect of Bread and Holding Period on Egg Quality Characteristics of Chicken. International Journal of Poultry Science 2003, 2, 261–263.
- Funk, E. M. The Relation of the Yolk Index Determined in Natural Position to the Yolk Index as Determined After Separating the Yolk from the Albumen. Poultry Science 1948, 27, 367–367.
- Caner, C. The Effect of Edible Eggshell Coatings on Egg Quality and Consumer Perception. Journal of the Science of Food and Agriculture 2005, 85, 1897–1902.
- Jones, D. R.; Musgrove, M. T. Effects of Extended Storage on Egg Quality Factors. Poultry Science 2005, 84, 1774–1777.
- Yuceer, M.; Caner, C. Antimicrobial Lysozyme–Chitosan Coatings Affect Functional Properties and Shelf Life of Chicken Eggs during Storage. Journal of the Science of Food and Agriculture 2014, 94, 153–162.
- Li-Chan, E.; Nakai, S. Biochemical Basis for the Properties of Egg White. Critical Reviews in Poultry Biology 1989, 2, 21–58.
- Torrico, D. D.; No, H. K.; Prinyawiwatkul, W.; Janes, M.; Corredor, J. A.; Osorio, L. F. Mineral Oil-Chitosan Emulsion Coatings Affect Quality and Shelf-Life of Coated Eggs During Refrigerated and Room Temperature Storage. Journal of Food Science 2011, 76, S262–S268.
- Scott, T. A.; Silversides, F. G. The Effect of Storage and Strain of Hen on Egg Quality. Poultry Science 2000, 79, 1725–1729.
- Pimpen, P.; Panmanas, S.; Sakaow, P. Rapid Evaluation of the Salt Content of Canned Sardines in Brine Using Near-Infrared Diffuse Reflectance Spectroscopy. Spectroscopy Letters 2016, 49, 613–618.