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Super Eggs Production – The Influence of Feed Modification on Designer Egg Composition – A Review Cover

Super Eggs Production – The Influence of Feed Modification on Designer Egg Composition – A Review

Annals of Animal Science
Volume 25 (2025): Issue 4 (October 2025)
By: Magdalena Zielińska-Dawidziak,  Piotr Klimowicz and  Aneta Tomczak  
Open Access
|Oct 2025

References

  1. Akdemir F., Orhan C., Sahin N., Sahin K., Hayirli A. (2012). Tomato powder in laying hen diets: effects on concentrations of yolk carotenoids and lipid peroxidation. Br. Poult. Sci., 53: 675–680.
    Search in Google ScholarBack to article
  2. Alagawany M., Mahrose K.M. (2014). Influence of different levels of certain essential amino acids on the performance, egg quality criteria and economics of Lohmann Brown laying hens. Asian J. Poultry Sci., 8: 82–96.
    Search in Google ScholarBack to article
  3. Alagawany M., Elnesr S.S., Farag M.R., Tiwari R., Yatoo M.I., Karthik K., Michalak I., Dhama K. (2020). Nutritional significance of amino acids, vitamins and minerals as nutraceuticals in poultry production and health – a comprehensive review. Vet. Q., 41: 1–29.
    Search in Google ScholarBack to article
  4. Alay T., Karadas F. (2017). The effects of carotenoids in quail breeder diets on egg yolk pigmentation and breeder performance. Acta Agr Scand A – AN, 66: 1–9.
    Search in Google ScholarBack to article
  5. Al-Shammari K.I.A., Zamil S.J., Batkowska J. (2024). The antioxidative influence of dietary creatine monohydrate and L-carnitine on laying performance, egg quality, ileal microbiota, blood biochemistry, and redox status of stressed laying quails. Poult. Sci., 103: 103166.
    Search in Google ScholarBack to article
  6. Areerob P., Dahlan W., Angkanaporn K. (2018). Dietary crude palm oil supplementation improves egg quality and modulates tissue and yolk vitamin E concentrations of laying hen. Anim. Prod. Sci., 59: 1491–1500.
    Search in Google ScholarBack to article
  7. Arnold M., Rajagukguk Y.V., Gramza-Michałowska A. (2021). Functional food for elderly high in antioxidant and chicken eggshell calcium to reduce the risk of osteoporosis – a narrative review. Foods, 10: 656.
    Search in Google ScholarBack to article
  8. Barnkob L.L., Argyraki A., Jakobsen J. (2020). Naturally enhanced eggs as a source of vitamin D: A review. Trends Food Sci. Technol., 102: 62–70.
    Search in Google ScholarBack to article
  9. Basmacioğlu H., Cabuk M., Unal K., Ozkan K., Akkan S., Yalcin H. (2003). Effects of dietary fish oil and flax seed on cholesterol and fatty acid composition of egg yolk and blood parameters of laying hens. S. Afr. J. Anim. Sci. 33: 266–273.
    Search in Google ScholarBack to article
  10. Batkowska J., Drabik K., Brodacki A., Czech A., Adamczuk A. (2021). Fatty acids profile, cholesterol level and quality of table eggs from hens fed with the addition of linseed and soybean oil. Food Chem. 334: 127612.
    Search in Google ScholarBack to article
  11. Bennett D.C., Cheng K.M. (2010). Selenium enrichment of table eggs. Poult. Sci., 89: 2166–2172.
    Search in Google ScholarBack to article
  12. Branch L.S. (2023). Consolidated federal laws of Canada, Canadian Food Inspection Agency Act. https://laws-lois.justice.gc.ca/eng/acts/c-16.5/FullText.html
    Search in Google ScholarBack to article
  13. Browning L.C., Cowieson A.J. (2014). Vitamin D fortification of eggs for human health. J. Sci. Food Agric., 94: 1389–1396.
    Search in Google ScholarBack to article
  14. Bunchasak C., Kachana S. (2009). Dietary folate and vitamin B12 supplementation and consequent vitamin deposition in chicken eggs. Trop. Anim. Health Prod., 41: 1583–1589.
    Search in Google ScholarBack to article
  15. Calder P.C. (2012). Mechanisms of action of (n-3) fatty acids. J. Nutr., 142: 592S–599S.
    Search in Google ScholarBack to article
  16. Calik J. (2016). Assessment of content of selected chemical components in hen eggs depending on their production cycle. Food Sci. Technol. Quality, 106: 54–63.
    Search in Google ScholarBack to article
  17. Cao J., Zhu J., Zhou Q., Zhao L., Zou C., Guo Y., Curtin B., Ji F., Liu B., Yu D. (2023). Efficacy evaluation of novel organic iron complexes in laying hens: effects on laying performance, egg quality, egg iron content, and blood biochemical parameters. Animal Biosci., 36: 498–505.
    Search in Google ScholarBack to article
  18. Ceylan N., Ciftci I., Mizrak C., Kahraman Z., Efil H. (2011). Influence of different dietary oil sources on performance and fatty acid profile of egg yolk in laying hens. J. Anim. Feed Sci., 20: 71–83.
    Search in Google ScholarBack to article
  19. Chen X., Li T., He K., Geng Z., Wan X. (2021). Dietary green tea powder supplementation enriched egg nutrients and physico-chemical property in an indigenous chicken breed. Poult. Sci., 100: 388–395.
    Search in Google ScholarBack to article
  20. Cherian G., Quezada N. (2016). Egg quality, fatty acid composition and immunoglobulin Y content in eggs from laying hens fed full fat camelina or flax seed. J. Anim. Sci. Biotech., 7: 1–8.
    Search in Google ScholarBack to article
  21. Clark A., Kuznesof S., Davies S., Waller A., Ritchie A., Wilson S., Harbord L., Hill T. (2021). Egg enrichment with vitamin D: The Sunshine Eggs projects. Nutr. Bull., 46.
    Search in Google ScholarBack to article
  22. Dale N. (1994). National Research Council Nutrient Requirements of Poultry – Ninth Revised Edition (1994). J. Appl. Poult. Res., 3: 101.
    Search in Google ScholarBack to article
  23. Dansou D.M., Wang H., Nugroho R.D., He W., Zhao Q., Tang C., Zhang H., Zhang J. (2021). Effects of duration and supplementation dose with astaxanthin on egg fortification. Poult. Sci., 100: 101304.
    Search in Google ScholarBack to article
  24. Dedousi A., Kritsa M.-Z., Stojčić M.Đ., Sfetsas T., Sentas A., Sossidou E. (2022). Production performance, egg quality characteristics, fatty acid profile and health lipid indices of produced eggs, blood biochemical parameters and welfare indicators of laying hens fed dried olive pulp. Sustainability, 14: 1–23. https://ideas.repec.org//a/gam/jsusta/v14y2022i6p3157-d766329.html
    Search in Google ScholarBack to article
  25. Dikmen B.Y., Sahan U. (2007). Correlations between breeder age, egg cholesterol content, blood cholesterol level and hatchability of broiler breeders. Brit. Poult. Sci., 48: 98–103.
    Search in Google ScholarBack to article
  26. Dobrzański Z., Chojnacka K., Trziszka T., Opaliński S., Bobak Ł., Konkol D., Korczyński M. (2020). The effect of dietary humic preparations on the content of essential and non-essential chemical elements in hen eggs. Animals, 10: 1252.
    Search in Google ScholarBack to article
  27. Drabik K., Próchniak T., Spustek D., Wengerska K., Batkowska J. (2021). The impact of package type and temperature on the changes in quality and fatty acids profile of table eggs during their storage. Foods, 10: 2047.
    Search in Google ScholarBack to article
  28. Elkin R.G. (2006). Reducing shell egg cholesterol content. I. Overview, genetic approaches, and nutritional strategies. World’s Poult. Sci. J., 62: 665–687.
    Search in Google ScholarBack to article
  29. Elkin R.G., El-Zenary A.S.A., Bomberger R., Haile A.B., Weaver E.A., Ramachandran R., Harvatine K.J. (2023). Feeding laying hens docosa hexaenoic acid-rich microalgae oil at 40 g/kg diet causes hypotriglyceridemia, depresses egg production, and attenuates expression of key genes affecting hepatic triglyceride synthesis and secretion, but is rescued by dietary. Poult. Sci., 102: 6–7.
    Search in Google ScholarBack to article
  30. European Commission (2013). Commission Regulation No 68/2013 of 16 January 2013 on the Catalogue of feed materials. OJ L 29, 30.1.2013, 1–6. Co, 1–64.
    Search in Google ScholarBack to article
  31. FAO (2013). Dietary protein quality evaluation in human nutrition. Report of an FAQ Expert Consultation 2013. FAO food and nutrition paper, 92: 1–66.
    Search in Google ScholarBack to article
  32. Fisinin V.I., Papazyan T.T., Surai P.F. (2009). Producing selenium-enriched eggs and meat to improve the selenium status of the general population. Crit. Rev. Biotechnol., 29: 18–28.
    Search in Google ScholarBack to article
  33. Gaffney M., O’Rourke R., Taylor-Pickard J., Murphy R. (2015). A comparative assessment of the fatty acid profiles and antioxidant status of supermarket eggs. J. Appl. Anim. Nutr., 3: e9.
    Search in Google ScholarBack to article
  34. Gao Z., Zhang J., Li F., Zheng J., Xu G. (2021). Effect of oils in feed on the production performance and egg quality of laying hens. Animals, 11: 3482.
    Search in Google ScholarBack to article
  35. Gonzalez-Esquerra R., Leeson S. (2000). Effect of feeding hens regular or deodorized menhaden oil on production parameters, yolk fatty acid profile, and sensory quality of eggs. Poult. Sci., 79: 1597–1602.
    Search in Google ScholarBack to article
  36. Goto T., Shimamoto S., Takaya M., Sato S., Takahashi K., Nishimura K., Morii Y., Kunishige K., Ohtsuka A., Ijiri D. (2021). Impact on genetic differences among various chicken breeds on free amino acid contents of egg yolk and albumen. Sci. Rep., 11: 2270.
    Search in Google ScholarBack to article
  37. Grčević M., Kralik Z., Kralik G., Galović O. (2019). Effects of dietary marigold extract on lutein content, yolk color and fatty acid profile of omega-3 eggs. J. Sci. Food Agric., 99: 2292–2299.
    Search in Google ScholarBack to article
  38. Grune T., Krämer K., Hoppe P.P., Siems W. (2001). Enrichment of eggs with n-3 polyunsaturated fatty acids: effects of vitamin E supplementation. Lipids, 36: 833–838.
    Search in Google ScholarBack to article
  39. Gu L., Yang Y., McClements D.J., Dong S., Liu Y., Li J., Chang C., Yang Y., Su Y. (2022). Preparation and characterization of folate-enriched eggs and egg yolk powders. J. Agric. Food Res., 8: 100309.
    Search in Google ScholarBack to article
  40. Hammershøj M., Kidmose U., Steenfeldt S. (2010). Deposition of carotenoids in egg yolk by short-term supplement of coloured carrot (Daucus carota) varieties as forage material for egg-laying hens. J. Sci. Food Agric., 90: 1163–1171.
    Search in Google ScholarBack to article
  41. He X., Wang J., Wang Y., Wang B., Zhang J., Geng F. (2023). Quantitative lipidomic analysis of egg yolk, yolk granule, and yolk plasma. J. Food Compos. Anal., 115: 104880.
    Search in Google ScholarBack to article
  42. Hejdysz M., Nowaczewski S., Perz K., Szablewski T., Stuper-Szablewska K., Cegielska-Radziejewska R., Tomczyk Ł., Przybylska-Balcerek A., Buśko M., Kaczmarek S.A., Ślósarz P. (2024). Influence of the genotype of the hen (Gallus gallus domesticus) on main parameters of egg quality, chemical composition of the eggs under uniform environmental conditions. Poult. Sci., 103: 103165.
    Search in Google ScholarBack to article
  43. Hoey L., McNulty H., McCann E.M.E., McCracken K.J., Scott J.M., Marc B.B., Molloy A.M., Graham C., Pentieva K. (2009). Laying hens can convert high doses of folic acid added to the feed into natural folates in eggs providing a novel source of food folate. Br. J. Nutr., 101: 206–212.
    Search in Google ScholarBack to article
  44. Hu C.H., Zuo A.Y., Wang D.G., Pan H.Y., Zheng W.B., Qian Z.C., Zou X.T. (2011). Effects of broccoli stems and leaves meal on production performance and egg quality of laying hens. Anim. Feed Sci. Technol., 170: 117–121.
    Search in Google ScholarBack to article
  45. Iji P.A., Toghyani M., Ahiwe E.U., Omede A.A. (2017). Alternative sources of protein for poultry nutrition. In: Achieving sustainable production of poultry meat. Vol. 2: 237–270.
    Search in Google ScholarBack to article
  46. Jia W., Slominski B.A., Guenter W., Humphreys A., Jones O. (2008). The effect of enzyme supplementation on egg production parameters and omega-3 fatty acid deposition in laying hens fed flaxseed and canola seed. Poult. Sci., 87: 2005–2014.
    Search in Google ScholarBack to article
  47. Jiru M., Stranska-Zachariasova M., Kohoutkova J., Schulzova V., Krmela A., Revenco D., Koplik R., Kastanek P., Fulin T., Hajslova J. (2021). Potential of microalgae as source of health-beneficial bioactive components in produced eggs. J. Food Sci. Technol., 58: 1–10.
    Search in Google ScholarBack to article
  48. Karageorgou D., Rova U., Christakopoulos P., Katapodis P., Matsakas L., Patel A. (2023). Benefits of supplementation with microbial omega-3 fatty acids on human health and the current market scenario for fish-free omega-3 fatty acid. Trends Food Sci. Technol., 136: 169–180.
    Search in Google ScholarBack to article
  49. Karsten H.D., Patterson P.H., Stout R., Crews G. (2010). Vitamins A, E and fatty acid composition of the eggs of caged hens and pastured hens. Renew. Agric. Food Syst., 25: 45–54.
    Search in Google ScholarBack to article
  50. Kavtarashvili A.S., Novotorov E.N., Stefanova I.L. (2021). The efficiency of xanthophylls in the combined fortification of table eggs. IOP Conference Series: Earth and Environmental Science, 640: 32013.
    Search in Google ScholarBack to article
  51. Kawamura N., Yokoyama R., Takaya M., Ono R., Goto T. (2023). Combined effect of feed and housing system affects free amino acid content of egg yolk and albumen in brown layer chickens. J. Poult. Sci., 60: 2023007.
    Search in Google ScholarBack to article
  52. Kawazoe T., Yuasa K., Yamazaki M., Ando M. (1994). Production of vitamin D-fortified eggs by feeding of vitamin D2-fortified shii-take. Nippon Shokuhin Kogyo Gakkaishi, 41: 891–896.
    Search in Google ScholarBack to article
  53. Khan R.U., Khan A., Naz S., Ullah Q., Puvača N., Laudadio V., Mazzei D., Seidavi A., Ayasan T., Tufarelli V. (2023). Pros and cons of dietary vitamin A and its precursors in poultry health and production: a comprehensive review. Antioxidants, 12: 131.
    Search in Google ScholarBack to article
  54. Kljak K., Duvnjak M., Bedeković D., Kiš G., Janječić Z., Grbeša D. (2021). Commercial corn hybrids as a single source of dietary carotenoids: effect on egg yolk carotenoid profile and pigmentation. Sustainability, 13: 12287.
    Search in Google ScholarBack to article
  55. Ko E.Y., Saini R.K., Keum Y.S., An B.K. (2021). Age of laying hens significantly influences the content of nutritionally vital lipophilic compounds in eggs. Foods, 10: 22.
    Search in Google ScholarBack to article
  56. Kobus-Cisowska J., Szymanowska-Powałowska D., Szymandera-Buszka K., Rezler R., Jarzębski M., Szczepaniak O., Marciniak G., Jędrusek-Golińska A., Kobus-Moryson M. (2020). Effect of fortification with calcium from eggshells on bioavailability, quality, and rheological characteristics of traditional Polish bread spread. J. Dairy Sci., 103: 6918–6929.
    Search in Google ScholarBack to article
  57. Kopacz M., Drażbo A.A., Śmiecińska K., Ognik K. (2021). Performance and egg quality of laying hens fed diets containing raw, hydrobarothermally-treated and fermented rapeseed cake. Animals, 11: 3083.
    Search in Google ScholarBack to article
  58. Kopeć W., Skiba T., Korzeniowska M., Bobak Ł., Trziszka T. (2005). Activity of protease inhibitors and lysozyme of hen’s egg white depending on feed modification and egg storage. P. J. Food Nutr. Sci., 55: 79–83.
    Search in Google ScholarBack to article
  59. Kowalska E., Kucharska-Gaca J., Kuźniacka J., Lewko L., Gornowicz E., Biesek J., Adamski M. (2020). Quality of eggs, concentration of lysozyme in albumen, and fatty acids in yolk in relation to blue lupin-rich diet and production cycle. Animals, 10: 735.
    Search in Google ScholarBack to article
  60. Kowalska E., Kucharska-Gaca J., Kuźniacka J., Lewko L., Gornowicz E., Biesek J., Adamski M. (2021). Egg quality depending on the diet with different sources of protein and age of the hens. Sci. Rep., 11: 2638.
    Search in Google ScholarBack to article
  61. Kralik G., Kralik Z., Grčević M., Hanžek D., Margeta P., Galović O. (2020). Enrichment of table eggs with lutein. Poljoprivreda, 26: 56–63.
    Search in Google ScholarBack to article
  62. Kralik G., Kralik Z., Grčević M., Galović O., Hanžek D., Biazik E. (2021). Fatty acid profile of eggs produced by laying hens fed diets containing different shares of fish oil. Poult. Sci., 100: 101379.
    Search in Google ScholarBack to article
  63. Kralik Z., Kralik G., Košević M., Galović O., Samardžić M. (2023). Natural multi-enriched eggs with n-3 polyunsaturated fatty acids, selenium, vitamin E, and lutein. Animals, 13: 321.
    Search in Google ScholarBack to article
  64. Lai S.-M., Gray J.I., Flegal C.J., Cooper T. (1996). Deposition of carotenoids in eggs from hens fed diets containing saponified and unsaponified oleoresin paprika. J. Sci. Food Agric., 72: 166–170.
    Search in Google ScholarBack to article
  65. Lee S.H., Kim Y.B., Kim D.H., Lee D.W., Lee H.G., Jha R., Lee K.W. (2021). Dietary soluble flaxseed oils as a source of omega-3 polyunsaturated fatty acids for laying hens. Poult. Sci., 100: 101276.
    Search in Google ScholarBack to article
  66. Leeson S., Caston L. (2003). Vitamin Enrichment of Eggs. J. App. Poult. Res., 12.
    Search in Google ScholarBack to article
  67. Leser S. (2013). The 2013 FAO report on dietary protein quality evaluation in human nutrition: Recommendations and implications. Nutr. Bull., 38.
    Search in Google ScholarBack to article
  68. Lesnierowski, G., Stangierski J. (2018). What’s new in chicken egg research and technology for human health promotion? – A review. Trends Food Sci. Technol., 71: 46–51.
    Search in Google ScholarBack to article
  69. Liu Y.-Q., Davis C.R., Schmaelzle S.T., Rocheford T., Cook M.E., Tanumihardjo S.A. (2012). β-Cryptoxanthin biofortified maize (Zea mays) increases β-cryptoxanthin concentration and enhances the color of chicken egg yolk. Poult. Sci., 91: 432–438.
    Search in Google ScholarBack to article
  70. Lohmann (2020). Crude Fat in Layer Nutrition. In: Lohmann Breeders. https://lohmann-breeders.com/crude-fat-in-layer-nutrition/
    Search in Google ScholarBack to article
  71. Mabe I., Rapp C., Bain M.M., Nys Y. (2003). Supplementation of a corn-soybean meal diet with manganese, copper, and zinc from organic or inorganic sources improves eggshell quality in aged laying hens. Poult. Sci., 82: 1903–1913.
    Search in Google ScholarBack to article
  72. Maina A.N., Lewis E., Kiarie E.G. (2023). Egg production, egg quality, and fatty acids profiles in eggs and tissues in Lohmann LSL lite hens fed algal oils rich in docosahexaenoic acid (DHA). Poult. Sci., 102: 102921.
    Search in Google ScholarBack to article
  73. Mattila P., Valaja J., Rossow L., Venäläinen E., Tupasela T. (2004). Effect of vitamin D2- and D3-enriched diets on egg vitamin D content, production, and bird condition during an entire production period. Poult. Sci., 83: 433–440.
    Search in Google ScholarBack to article
  74. Mattioli S., Ruggeri S., Sebastiani B., Brecchia G., Dal Bosco A., Cartoni Mancinelli A., Castellini C. (2017). Performance and egg quality of laying hens fed flaxseed: highlights on n-3 fatty acids, cholesterol, lignans and isoflavones. Animal, 11: 705–712.
    Search in Google ScholarBack to article
  75. Mattioli S., Cartoni Mancinelli A., Bravi E., Angelucci E., Falcinelli B., Benincasa P., Castellini C., Sileoni V., Marconi O., Dal Bosco A. (2023). Dietary freeze-dried flaxseed and alfalfa sprouts as additional ingredients to improve the bioactive compounds and reduce the cholesterol content of hen eggs. Antioxidants, 12: 103.
    Search in Google ScholarBack to article
  76. Mens A.J.W., van Krimpen M.M., Kar S.K., Guiscafre F.J., Sijtsma L. (2022). Enriching table eggs with n-3 polyunsaturated fatty acids through dietary supplementation with the phototrophically grown green algae Nannochloropsis limnetica: effects of microalgae on nutrient retention, performance, egg characteristics and health param. Poult. Sci., 101: 101869.
    Search in Google ScholarBack to article
  77. Michalak I., Chojnacka K., Dobrzański Z., Górecki H., Zielińska A., Korczyński M., Opaliński S. (2011). Effect of macroalgae enriched with microelements on egg quality parameters and mineral content of eggs, eggshell, blood, feathers and droppings. J. Anim. Physiol. Anim. Nutr., 95: 374–387.
    Search in Google ScholarBack to article
  78. Moreno J.A., Díaz-Gómez J., Nogareda C., Angulo E., Sandmann G., Portero-Otin M., Serrano J.C.E., Twyman R.M., Capell T., Zhu C., Christou P. (2016). The distribution of carotenoids in hens fed on biofortified maize is influenced by feed composition, absorption, resource allocation and storage. Sci. Rep., 6: 35346.
    Search in Google ScholarBack to article
  79. Mori A.V., Mendonça C.X., Almeida C.R.M., Pita M.C.G. (2003). Supplementing hen diets with vitamins A and E affects egg yolk retinol and α-tocopherol levels. J. App. Poult. Res., 12: 106–114.
    Search in Google ScholarBack to article
  80. Mori H., Takaya M., Nishimura K., Goto T. (2020). Breed and feed affect amino acid contents of egg yolk and eggshell color in chickens. Poult. Sci., 99: 172–178.
    Search in Google ScholarBack to article
  81. Muhammad A.I., Mohamed D.A.A., Chwen L.T., Akit H., Samsudin A.A. (2021). Effect of sodium selenite, selenium yeast, and bacterial enriched protein on chicken egg yolk color, antioxidant profiles, and oxidative stability. Foods, 10: 871.
    Search in Google ScholarBack to article
  82. Naber E.C. (1993). Modifying Vitamin composition of eggs: a review. J. App. Poult. Res., 2: 385–393.
    Search in Google ScholarBack to article
  83. Nain S., Renema R.A., Korver D.R., Zuidhof M.J. (2012). Characterization of the n-3 polyunsaturated fatty acid enrichment in laying hens fed an extruded flax enrichment source. Poult. Sci., 91: 1720–1732.
    Search in Google ScholarBack to article
  84. Ngo Njembe M.T., Dejonghe L., Verstraelen E., Mignolet E., Leclercq M., Dailly H., Gardin C., Buchet M., Nain C.W., Larondelle Y. (2021). The egg yolk content in ω-3 and conjugated fatty acids can be sustainably increased upon long-term feeding of laying hens with a diet containing flaxseeds and pomegranate seed oil. Foods, 10.
    Search in Google ScholarBack to article
  85. Nusantoro S., Rouf A., Wulandari S., Nurkholis E., Kustiawan E., Awaludin A., Utami M.M.D. (2020). The use of Golden snail (Pomacea canaliculata) egg as source of carotenoid for improvement of Arabic Chicken egg quality. IOP Conference Series: Earth and Environmental Science, 411: 12038.
    Search in Google ScholarBack to article
  86. Onishi H., Ishida M. (2021). Insufficiency of B vitamins with its possible clinical implications. J. Clin. Biochem. Nutr., 68: 1. O’Sullivan S.M., Ball M.E., McDonald E., Hull G.L.J., Danaher M.,
    Search in Google ScholarBack to article
  87. Cashman K.D. (2020). Biofortification of chicken eggs with Vita-min K-nutritional and quality improvements. Foods, 9: 1619. Omidi M., Rahimi S., Karimi Torshizi M.A. (2015). Modification of egg yolk fatty acids profile by using different oil sources. Vet. Res. For., 6: 137–141.
    Search in Google ScholarBack to article
  88. Pan C., Zhao Y., Liao S.F., Chen F., Qin S., Wu X., Zhou H., Huang K. (2011). Effect of selenium-enriched probiotics on laying performance, egg quality, egg selenium content, and egg glutathione peroxidase activity. J. Agric. Food Chem., 59: 11424–11431.
    Search in Google ScholarBack to article
  89. Panaite T.D., Nour V., Saracila M., Turcu R.P., Untea A.E., Vlaicu P.A. (2021). Effects of linseed meal and carotenoids from different sources on egg characteristics, yolk fatty acid and carotenoid profile and lipid peroxidation. Foods, 10.
    Search in Google ScholarBack to article
  90. Park S.W., Namkung H., Ahn H.J., Paik I.K. (2005). Enrichment of vitamins D3, K and iron in eggs of laying hens. Asian-Australas. J. Anim. Sci., 18: 226–229.
    Search in Google ScholarBack to article
  91. Petrović M., Gačić M., Karačić V., Gottstein Ž., Mazija H., Medić H. (2012). Enrichment of eggs in n-3 polyunsaturated fatty acids by feeding hens with different amount of linseed oil in diet. Food Chem., 135: 1563–1568.
    Search in Google ScholarBack to article
  92. Pirgozliev V.R., Whiting I.M., Kljak K., Mansbridge S.C., Atanasov A.G., Rose S.P., Enchev S.B. (2022). Stevia (Stevia rebaudiana) Improves carotenoid content in eggs when fed to laying hens. Foods, 11: 1418.
    Search in Google ScholarBack to article
  93. Pitargue F.M., Kang H.K., Kil D.Y. (2019). Lutein-enriched egg production for laying hens. World’s Poult. Sci. J., 75: 633–645.
    Search in Google ScholarBack to article
  94. Pulla S., Sai Prasanna J. (2019). Designer eggs and poultry meat as functional foods – an overview. 8: 829–831.
    Search in Google ScholarBack to article
  95. Qi X., Wu S., Zhang H., Yue H., Xu S., Ji F., Qi G. (2011). Effects of dietary conjugated linoleic acids on lipid metabolism and antioxidant capacity in laying hens. Arch. Anim. Nutr., 65: 354–365.
    Search in Google ScholarBack to article
  96. Radwan N., Salaheldin T., Zaiat A.A., Mostafa M. (2015). Effect of dietary nano-selenium supplementation on selenium content and oxidative stability in table eggs and productive performance of laying hens. Int. J. Poult. Sci., 14: 161–176.
    Search in Google ScholarBack to article
  97. Rayman M.P. (2000). The importance of selenium to human health. Lancet, 356: 233–241.
    Search in Google ScholarBack to article
  98. Réhault-Godbert S., Guyot N., Nys Y. (2019). The Golden Egg: nutritional value, bioactivities, and emerging benefits for human health. Nutrients, 11: 684.
    Search in Google ScholarBack to article
  99. Saelens G., Planckaert S., Devreese B., Gabriël S. (2023). Transmissibility of anisakid allergenic peptides from animal feed to chicken meat: Proof of concept. J. Food Comp. Anal., 115: 104939.
    Search in Google ScholarBack to article
  100. Saleh H.M., Hassan A.A., Mansour E.H., Fahmy H.A., El-Bedawey A.E.F.A. (2019). Melatonin, phenolics content and antioxidant activity of germinated selected legumes and their fractions. J. Saudi Soc. Agric. Sci., 18: 294–301.
    Search in Google ScholarBack to article
  101. Sato Y., Watanabe K., Takahashi T. (1973). Lipids in egg white. Poult. Sci., 52: 1564–1570.
    Search in Google ScholarBack to article
  102. Schiavone A., Barroeta A.C. (2011). 15 - Egg enrichment with vita-mins and trace minerals. In: Improving the safety and quality of eggs and egg products, Van Immerseel F., Nys Y., Bain M. (eds). Woodhead Publishing, Sawston, GB, pp. 289–320.
    Search in Google ScholarBack to article
  103. Sergin S., Jambunathan V., Garg E., Rowntree J.E., Fenton J. I. (2022). Fatty acid and antioxidant profile of eggs from pasture-raised hens fed a corn- and soy-free diet and supplemented with grass-fed beef suet and liver. Foods, 11: 3404.
    Search in Google ScholarBack to article
  104. Shang X.G., Wang F.L., Li D.F., Yin J.D., Li J.Y. (2004). Effects of dietary conjugated linoleic acid on the productivity of laying hens and egg quality during refrigerated storage. Poult. Sci., 83: 1688–1695.
    Search in Google ScholarBack to article
  105. Sinclair-Black M., Garcia R.A., Ellestad L.E. (2023). Physiological regulation of calcium and phosphorus utilization in laying hens. Front. Physiol., 14: 1–8.
    Search in Google ScholarBack to article
  106. Singh V.P., Pathak V., Verma A. (2012). Modified or enriched eggs: a smart approach in egg industry: a review. Am. J. Food Technol., 7: 266–277.
    Search in Google ScholarBack to article
  107. Sunwoo H.H., Gujral N. (2015). Chemical composition of eggs and egg products. In: Handbook of Food Chemistry, Cheung P.C.K., Mehta B.M. (eds). Springer, pp. 331–363.
    Search in Google ScholarBack to article
  108. Surai P.F., Papazyan T.T., Speake B.K., Sparks N.H.C. (2007). Enrichment in selenium and other trace elements. In: Bioactive egg compounds, Huopalahti R., López-Fandiño R., Anton M., Schade R. (eds). Springer, pp. 183–190.
    Search in Google ScholarBack to article
  109. Suzuki Y., Okamoto M. (1997). Production of hen’s eggs rich in vita-min K. Nutr. Res., 17: 1607–1615.
    Search in Google ScholarBack to article
  110. Świątkiewicz S., Arczewska-Wlłosek A., Bederska-Lojewska D., Józefiak D. (2016). Efficacy of dietary Vitamin D and its metabolites in poultry-review and implications of the recent studies. Worlds Poult. Sci. J., 73: 57–68.
    Search in Google ScholarBack to article
  111. Szczerbińska D., Sulik M., Majewska D., Ligocki M., Adaszyńska-Skwirzyńska M. (2021). Effect of diet supplemented with black cumin (Nigella sativa) seeds on egg yolk fatty acid profile and egg yolk cholesterol level of Japanese quail (Coturnix japonica). Acta Sci. Pol. Zoot., 19: 31–38.
    Search in Google ScholarBack to article
  112. Taaifi Y., Belhaj K., Mansouri F., Rbah Y., Melhaoui R., Houmy N., Ben Moumen A., Azeroual E., Addi M., Elamrani A., Serghini-Caid H. (2023). The effect of feeding laying hens with nonindustrial hemp seed on the fatty acid profile, cholesterol level, and tocopherol composition of egg yolk. Int. J. Food Sci., 2023: 1360276.
    Search in Google ScholarBack to article
  113. Teixeira M. da S., Triginelli M.V., Costa T. de A., Lara L.J.C., Soto-Blanco B. (2020). Effects of caffeine on egg quality and performance of laying hens. Front. Vet. Sci., 7: 545359.
    Search in Google ScholarBack to article
  114. Thanabalan A., Moats J., Kiarie E.G. (2020). Effects of feeding broiler breeder hens a coextruded full-fat flaxseed and pulses mixture without or with multienzyme supplement. Poult. Sci., 99: 2616–2623.
    Search in Google ScholarBack to article
  115. Timová I., Straková E., Všetičková L., Suchý P. (2020). Impact of feeding mixture containing lupin meal on improvement of polyunsatu-rated fatty acids in egg yolk. Czech J. Anim. Sci., 65: 311–321.
    Search in Google ScholarBack to article
  116. Tomczak A., Misiak M., Zielińska-Dawidziak M. (2021). Soybean and lupine addition in hen nutrition-influence on egg immunoreactivity. Molecules, 26: 4319.
    Search in Google ScholarBack to article
  117. Tomczak A., Zielińska-Dawidziak M., Klimowicz P., Hejdysz M., Kaczmarek S., Siger A., Cieślak A. (2024). Modification of the protein amino acid content in hen eggs as a consequence of different concentrations of lupine and soy in feed. Molecules, 29: 3727.
    Search in Google ScholarBack to article
  118. Vlaicu P.A., Panaite T.D. (2022). Effect of dietary pumpkin (Cucurbita moschata) seed meal on layer performance and egg quality characteristics. Anim. Biosci., 35: 236–246.
    Search in Google ScholarBack to article
  119. Vlaicu P.A., Panaite T., Turcu R. (2021). Enriching laying hens eggs by feeding diets with different fatty acid composition and antioxidants. Sci. Rep., 11: 20707.
    Search in Google ScholarBack to article
  120. Vlaicu P.A., Untea A.E., Turcu R.P., Panaite T.D., Saracila M. (2022). Rosehip (Rosa canina L.) Meal as a natural antioxidant on lipid and protein quality and shelf-life of polyunsaturated fatty acids enriched eggs. Antioxidants, 11: 1948.
    Search in Google ScholarBack to article
  121. Vlaicu P.A., Untea A.E., Varzaru I., Saracila M., Oancea A.G. (2023). Designing nutrition for health – incorporating dietary by-products into poultry feeds to create functional foods with insights into health benefits, risks, bioactive compounds, food component functionality and safety regulations. Foods, 12: 4001.
    Search in Google ScholarBack to article
  122. Vlaicu P.A., Untea A.E., Lefter N.A., Oancea A.G., Saracila M., Varzaru I. (2024). Influence of rosehip (Rosa canina L.) leaves as feed additive during first stage of laying hens on performances and egg quality characteristics. Poult. Sci., 103: 103990.
    Search in Google ScholarBack to article
  123. Wan Y., Ma R., Qi R., Lu J., Wang Z., Ma Q., Liu W., Li J., Li Y., Zhan K. (2022). Effects of dietary fermented peony seed dreg on the laying performance, albumen quality, antioxidant capacity, and n-3 PUFA-enriching property of laying hens. Front. Vet. Sci., 9: 1109869.
    Search in Google ScholarBack to article
  124. Wang J., Yue H., Wu S., Zhang H., Qi G. (2017). Nutritional modulation of health, egg quality and environmental pollution of the layers. Anim. Nutr., 3: 91–96.
    Search in Google ScholarBack to article
  125. Wasielewska M. (2021). Influence of feed additives for chickens on the quality of eggs laid and related risks. J. Educ. Health Sport, 11: 246–258.
    Search in Google ScholarBack to article
  126. Wen Z., Wu Y., Qi Z., Li X., Li F., Wu X., Yang P. (2019). Rubber seed oil supplementation enriches n-3 polyunsaturated fatty acids and reduces cholesterol contents of egg yolks in laying hens. Food Chem., 301: 125198.
    Search in Google ScholarBack to article
  127. Witkowska Z., Świniarska M., Korczyński M., Opaliński S., Konkol D., Michalak I., Saeid A., Mironiuk M., Chojnacka K. (2019). Biofortification of hens’ eggs with microelements by innovative bio-based dietary supplement. J. Anim. Physiol. Anim. Nutr., 103: 485–492.
    Search in Google ScholarBack to article
  128. Xiao J.F., Zhang Y.N., Wu S.G., Zhang H.J., Yue H.Y., Qi G.H. (2014). Manganese supplementation enhances the synthesis of glycosaminoglycan in eggshell membrane: A strategy to improve eggshell quality in laying hens. Poult. Sci., 93: 380–388.
    Search in Google ScholarBack to article
  129. Yao L., Wang T., Persia M., Horst R.L., Higgins M. (2013). Effects of vitamin D(3) -enriched diet on egg yolk vitamin D(3) content and yolk quality. J. Food Sci., 78: C178–183.
    Search in Google ScholarBack to article
  130. Yenilmez F., Atay A. (2023). Changes in egg production, egg quality, blood and egg cholesterol levels with age in layer hen. Eur. J. Vet. Med., 3: 6–11.
    Search in Google ScholarBack to article
  131. Yu A.-C., Deng Y.-H., Long C., Sheng X.-H., Wang X.-G., Xiao L.-F., Lv X.-Z., Chen X.-N., Chen L., Qi X.-L. (2024). High dietary folic acid supplementation reduced the composition of fatty acids and amino acids in fortified eggs. Foods, 13: 1048.
    Search in Google ScholarBack to article
  132. Zhang P., Tang C., Ding Z., Huang H., Sun Y. (2017). Effects of simultaneous supplementation of laying hens with α-linolenic acid and eicosapentaenoic acid/docosahexaenoic acid resources on egg quality and n-3 fatty acid profile. Asian-Australas. J. Anim. Sci., 7: 973–978.
    Search in Google ScholarBack to article
  133. Zhang X., Chelliappan B., Rajeswari S., Antonysamy M. (2021). Recent advances in applications of bioactive egg compounds in non-food sectors. Front. Bioeng. Biotechnol., 9: 1–14.
    Search in Google ScholarBack to article
  134. Zhang Y.N. (2013). Effects of dietary zinc on eggshell quality and antioxidant status of old laying hens. Chinese Academy of Agricultural Sciences.
    Search in Google ScholarBack to article
  135. Zhao Y.C., Shi H.H., Wang C.C., Yang J.Y., Xue C.H., Jiang X.M., Chen G.D., Zhang T.T., Wang Y.M. (2021). The enrichment of eggs with docosahexaenoic acid and eicosapentaenoic acid through supplementation of the laying hen diet. Food Chem., 346: 128958.
    Search in Google ScholarBack to article
DOI: https://doi.org/10.2478/aoas-2025-0002 | Journal eISSN: 2300-8733 | Journal ISSN: 1642-3402
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Language: English
Page range: 1277 - 1295
Submitted on: Aug 26, 2024
Accepted on: Nov 15, 2024
Published on: Oct 24, 2025
Published by: National Research Institute of Animal Production
In partnership with: Paradigm Publishing Services
Publication frequency: 4 issues per year
Keywords:
designer eggs,
eggs composition,
hen diet,
nutrient content modification,
nutrition value
Related subjects:
Life sciences,
Biotechnology,
Zoology,
Medicine,
Veterinary medicine

© 2025 Magdalena Zielińska-Dawidziak, Piotr Klimowicz, Aneta Tomczak, published by National Research Institute of Animal Production
This work is licensed under the Creative Commons Attribution 4.0 License.

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