Abstract
The purpose of this study was to develop an edible coating containing babassu starch, babassu oil, and plasticizers to maintain egg quality. Firstly, it evaluated the effects of 5% babassu starch with 10% (SC-10%), 15% (SC-15%), and 20% (SC-20%) oil coating on egg quality. The effects of polyols such as mannitol and sorbitol alone or in combination on coating effectiveness were also assessed. For the first part, all formulations containing starch and/or babassu oil effectively preserved the internal quality characteristics of weight loss and Haugh units of stored eggs for 28 days. For the yolk and albumen percentages, the eggs for the treatments containing oil (SC-10%, SC-15%, and SC-20%) had the values closest (p < 0.05) to those of fresh eggs. Thus, according to these parameters, the presence of the oil in the coatings was more efficient in delaying egg quality. Despite the increase in albumen pH with the storage, the eggs stored with coatings kept the pH around 8.5. For the yolk color, the b* values of SC-10%, SC-15%, and SC-20% varied from 22.64 to 24.25 and did not differ (p > 0.05) from fresh eggs. Regarding the shell color, ΔE values of coated eggs were higher in the starch babassu treatment (6.97), followed by the treatments SC-10% (4.79), SC-15% (5.18), and SC-20% (5.17), and finally without coating (15.95). The formulation SC-10%, which contained 5% starch and 10% babassu oil, was selected to compare plasticizers. For the plasticizers, the babassu starch and oil in combination with 30% mannitol kept better the egg quality. Weight loss was lower (p < 0.05) in eggs only with 30% of mannitol (2.69%) and the Haugh Units were higher (60.04). For the b* value of yolk, 30% of mannitol had higher values (48.83) (p < 0.05) when compared to the control treatment (40.39). Thus, the presence of babassu starch (5%) and oil (10%) in combination with 30% mannitol maintains the egg quality during 28 days of storage. This study provides an approach that can potentially be applied to egg shelf life using products of the babassu industry.
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References
FAO, Food and Agriculture Organization of the United Nations, (2020) http://www.fao.org/poultry-production-products/production/en/
Pires, PGS, Pires, PDS, Cardinal, KM, Leuven, AFR, Kindlein, L, Andretta, I, “Effects of Rice Protein Coatings Combined or Not with Propolis on Shelf Life of Eggs.” Poult. Sci., 98 4196–4203 (2019)
Akarca, G, Istek, O, Tomar, O, “The Effect of Resin Coating on the Quality Characteristics of Chicken Eggs During Storage.” J. Food Sci., 86 1243–1257 (2021)
Eddin, AS, Ibrahim, SA, Tahergorabi, R, “Egg Quality and Safety with an Overview of Edible Coating Application for Egg Preservation.” Food Chem., 296 29–39 (2019)
Tahergorabi, R, Jaczynski, J, “Egg as Nutraceuticals.” In: Hester, P (ed.) Egg Innovations and Strategies for Improvements, pp. 271–279. Academic Press, Cambridge (2016)
Yuceer, M, Caner, C, “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.” Int. J. Food Sci. Technol., 55 1629–1636 (2020)
Wardy, W, Torrico, DD, No, HK, Prinyawiwatkul, W, Saalia, FK, “Edible Coating Affects Physico-Functional Properties and Shelf Life of Chicken Eggs During Refrigerated and Room Temperature Storage.” Int. J. Food Sci., 45 2659–2668 (2010)
Oliveira, GS, McManus, C, Pires, PG, Santos, VM, “Combination of Cassava Starch Biopolymer and Essential Oils for Coating Table Eggs.” Front. Sustain., 6 1–9 (2022)
Morsy, MK, Sharoba, AM, Khalaf, HH, El-Tanahy, HH, Cutter, CN, “Efficacy of Antimicrobial Pullulan-Based Coating to Improve Internal Quality and Shelf-life of Chicken Eggs During Storage.” J. Food Sci., 80 1066–1074 (2015)
Pires, PGS, Pires, PDS, Cardinal, KM, Bavaresco, C, “The Use of Coatings in Eggs: A Systematic Review.” Trends Food Sci. Technol., 106 312–312 (2020)
Nongtaodum, S, Jangchud, A, Jangchud, K, Dhamvithee, P, No, HK, Prinyawiwatful, W, “Oil Coating Affects Internal Quality and Sensory Acceptance of Selected Attributes of Raw Eggs During Storage.” J. Food Sci., 78 S329–S335 (2013)
Ryu, KN, No, HK, Prinyawiwatkul, W, “Internal Quality and Shelf Life of Eggs Coated with Oils from Different Sources.” J. Food Sci., 76 325–329 (2011)
Biladeau, AM, Keener, KM, “The Effects of Edible Coatings on Chicken Egg Quality Under Refrigerated Storage.” Poult. Sci., 88 1266–1274 (2009)
Caner, C, “The Effect of Edible Eggshell Coatings on Egg Quality and Consumer Perception.” J. Sci. Food Agric., 85 1897–1902 (2005)
Yuceer, M, Caner, C, “The Impact of Coatings and Novel Processing Techniques on the Functionality of Table Eggs During Extended Storage Period at Ambient Temperature.” J. Food Proces. Preserv., 45 e15261 (2020)
Caner, C, Yuceer, M, “Efficacy of Various Protein-Based Coating on Enhancing the Shelf Life of Fresh Eggs During Storage.” Poult. Sci., 94 1665–1677 (2015)
Mota, ASB, Lima, PMS, Silva, DS, Abreu, VKG, Freitas, ER, Pereira, ALF, “Internal Quality of Eggs Coated with Cassava and Yam Starches.” Rev. Bras. Cienc. Agrar., 12 47–50 (2017)
Maniglia, BC, Silveira, TMG, Tapia-Blácido, DR, “Starch Isolation from Turmeric Dye Extraction Residue and its Application in Active Film Production.” Int. J. Biol. Macromol., 202 508–519 (2022)
Pan, D, Li, Y, Hu, Y, Li, R, Gao, X, Fan, X, Fang, H, Du, Q, Zhou, C, “Effect of Different Concentrations of Gellan Gum With/Without 0.50% Basil Essential Oil on the Physicochemical Properties of Gellan Gum-Rice Bran Oil Coating Emulsions and Their Application in Egg Preservation.” Food Chem., 418 1–12 (2023)
Silva, NC, Barros, EKC, Pereira, ALF, Lemos, TO, Abreu, VKG, “Effect of Babassu (Orbignya Phalerata) Mesocarp Flour on the Sensorial Properties and Nutritional Value of Cookies.” J. Food Nutr. Res., 7 805–809 (2019)
Maniglia, BC, Tessaro, L, Ramos, AP, Tapia-Blácido, DR, “Which Plasticizer is Suitable for Films Based on Babassu Starch Isolated by Different Methods?” Food Hydrocoll., 89 143–152 (2019)
Pires, PGS, Franceschi, CH, Bavaresco, C, Leuven, AFR, Andretta, I, “Plasticizer Types and Whey Protein Coatings on Internal Quality and Shelf Life of Eggs Stored for 42 Days.” Sci. Agric., 78 1–7 (2021)
Pires, PG, Bavaresco, C, Leuven, AFR, Gomes, BCK, De Souza, AK, Prato, BS, Kindlein, L, Andretta, I, “Plasticizer Types Affect Quality and Shelf Life of Eggs Coated with Rice Protein.” J. Food Sci. Technol., 57 971–979 (2020)
Cao, N, Yang, X, Fu, Y, “Effects of Various Plasticizers on Mechanical and Water Vapor Barrier Properties of Gelatin Films.” Food Hydrocoll., 23 729–735 (2009)
Al-Hassan, AA, Norziah, MH, “Starch-Gelatin Edible Films: Water Vapor Permeability and Mechanical Properties as Affected by Plasticizers.” Food Hydrocoll., 26 108–117 (2012)
Abreu, VKA, Pereira, ALF, Freitas, ER, Trevisan, MTS, Costa, JMC, Braz, NM, “Cashew Nut Shell Liquid Supplementation and the Effect on Lipid Oxidation and Color in Fresh and Spray-Dried Eggs.” J. Food Process. Preserv., 41 e13001 (2017)
Bovšková, H, Mikova, K, “Factors Influencing Egg White Foam Quality.” Czech J. Food Sci., 29 322–327 (2011)
Guedes, LLM, Souza, CMM, Saccomani, APO, Faria Filho, DE, Suckeveris, D, Faria, D, “Internal Quality of Laying Hens’ Commercial Eggs According to Storage Time, Temperature and Packaging.” Acta. Sci.–Anim. Sci., 38 87–90 (2016)
Pissinati, A, Oba, A, Yamashita, F, Silva, CA, Pinheiro, JW, Roman, JMM, “Qualidade interna de ovos submetidos a diferentes tipos de revestimento e armazenados por 35 dias a 25 ºC.” Sem. Ciênc. Agrár., 35 531–540 (2014)
Jo, C, Ahn, DU, Liu, XD, Kim, KH, Nam, KC, “Effects of Chitosan Coating and Storage with Dry Ice on the Freshness and Quality of Eggs.” Poult. Sci., 90 467–472 (2011)
Liu, X, Jang, A, Kim, DH, Lee, BD, Lee, M, Jo, C, “Effect of Combination of Chitosan Coating and Irradiation on Physicochemical and Functional Properties of Chicken Egg During Room-Temperature Storage.” Radiat. Phys. Chem., 78 589–591 (2009)
Samiullah, S, Roberts, JR, Chousalkar, E, “Eggshell Color in Brown-Egg Laying Hens - A Review.” Poult. Sci., 94 2566–2575 (2015)
Yuceer, M, Caner, C, “Antimicrobial Lysozyme-Chitosan Coatings Affect Functional Properties and Shelf Life of Chicken Eggs During Storage.” J. Sci. Food Agric., 94 153–162 (2014)
Oliveira, CH, Boiago, MM, Guaragni, A, “Effects of Heat Treatments and Edible Shell Coatings on Egg Quality After Storage at Room Temperature.” Food Sci. Technol., 40 344–348 (2020)
USDA, Department of Agriculture. United States Standards, Grades, and Weight Classes for Shell Eggs. AMS 56.210 (2020)
Acknowledgments
This study was supported by the National Council for Scientific and Technological Development (Process No. 486745/2013-9), Technological Development of Maranhão (Process No. 885/15), and the Coordination of Improvement of Higher Education Personnel (CAPES, Financial Code 001). AF Pereira and ER Freitas received CNPq grants.
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GRM contributed to conceptualization, data curation, formal analysis, methodology, and writing—original draft; RSC, RAS, and DSS helped in data curation, formal analysis, and methodology; AFP, VKGA, and ERF contributed to methodology and supervision; ALFP helped in conceptualization, methodology, supervision, writing—original draft, writing—review, and editing.
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Mendonça, G.R., Campos, R.d.S., da Silva, R.A. et al. Effectiveness of babassu starch and oil coating with plasticizers to improve shelf life of eggs. J Coat Technol Res 21, 255–266 (2024). https://doi.org/10.1007/s11998-023-00815-1
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DOI: https://doi.org/10.1007/s11998-023-00815-1