Importance of active edible coatings as a strategy to protect oilseeds against lipid oxidation processes found in the literature

Authors

DOI:

https://doi.org/10.33448/rsd-v11i6.29080

Keywords:

Bertholletia Excelsa; Lipid oxidations; Shelf life; Active packaging; Edible coating; Antioxidant compounds; Oilseeds; Teaching.

Abstract

The Brazil nut (Bertholletia Excelsa) is rich in monounsaturated fatty acids (MUFA) and polyunsaturated fatty acids (PUFA) such as oleic acid, linoleic acid and linolenic acid. The high content of these acids makes it a perishable food, and thus susceptible to lipid oxidation reactions that modify the physical, chemical, and sensory properties of the product, thus reducing its shelf life and added value. One of the solutions found in the literature is the application of active packaging, such as films and coatings that are made from biopolymers such as proteins, polysaccharides or lipids, which have a matrix of easy interaction with additives that can add new functions in the production of antioxidant, antimicrobial, low water vapor permeability packaging, and among other activities. The present literature review has the objective of searching for articles and presenting the results of the application of films and coating on oilseeds, besides discussing a little about what lipidic oxidation is, what favors the reaction and how to minimize it. As the result of the research, it was conclude that the application of films and coatings with antioxidant compounds helps to protect against lipid oxidation in oilseeds, contributing to the shelf life of the product, while maintaining the sensory characteristics that characterize them as foods of high nutritional value.

References

ANVISA. (2021). Instrução Normativa - IN n° 87, de 15 de Março de 2021. Agência Nacional de Vigilância Sanitária (ANVISA) estabelece “A lista de espécies vegetais autorizadas, as designações, a composição de ácidos graxos e os valores máximos de acidez e de índice de per, Pub. L. (87), 261. https://www.in.gov.br/en/web/dou/-/instrucao-normativa-in-n-87-de-15-de-marco-de-2021-309008143.

Bittencourt, V. R., Grassi, L. I., Schu, A. I., & Dalla Nora, F. M. (2020). Embalagens ativas como novas abordagens sustentáveis e ambientalmente corretas: uma revisão da literatura. In: Avanços em Ciência e Tecnologia de Alimentos. 2, 217–32. Editora Científica Digital. https://doi.org/10.37885/201102207.

Costa, F., Braga, R. C., Bastos, M. do S. R., Santos, D. N. dos, & Frota, M. M. (2022). Revestimentos comestíveis à base de fécula de mandioca (manihot esculenta) em produtos vegetais: uma revisão. Research, Society and Development, 11(4), 1–13. https://doi.org/10.33448/rsd-v11i4.27428.

Davy, H. (2009). Os antioxidantes. Food Ingretients Brazil, 16–31. http://www.unirio.br/ib/dmp/nutricao-integral/arquivos/fontes-de-consulta-complementar/Antioxidantes%20-%20FOOD%20INGREDIENTS%20BRASIL%20No6%20-%202009.pdf.

Fadavi, A., Barzegar, M., & Hossein Azizi, M. (2006). Determination of fatty acids and total lipid content in oilseed of 25 pomegranates varieties grown in Iran. Journal of Food Composition and Analysis, 19(6–7), 676–680. https://doi.org/10.1016/j.jfca.2004.09.002.

Fani, M. (2010). A Rancidez Oxidativa Oxidativa em Alimentos. Aditivos e Ingredientes, 31–37. http://insumos.com.br/aditivos_e_ingredientes/materias/209.pdf%0Ahttp://www.insumos.com.br/aditivos_e_ingredientes/materias/209.pdf.

Farooq, M., Azadfar, E., Rusu, A., Trif, M., Poushi, M. K., & Wang, Y. (2021). Improving the shelf life of peeled fresh almond kernels by edible coating with mastic gum. Coatings, 11(6). https://doi.org/10.3390/coatings11060618.

Fernandes, B. P., & Todescato, D. (2020). Como acontece a degradação de lipídeos nos alimentos para nutrição animal e como evitá-la. Bta Add Inovacion. https://www.btaaditivos.com.br/br/blog/como-acontece-a-degradacao-de-lipideos-nos-alimentos-para-nutricao-animal-e-como-evita-la/85/.

Ferrari, C. K. B. (1998). Oxidação lipídica em alimentos e sistemas biológicos: mecanismos gerais e implicações nutricionais e patológicas. Revista de Nutrição, 11(1), 3–14. https://doi.org/10.1590/s1415-52731998000100001.

Jorge, N. (2013). Funções da embalagem. In C. Acadêmica (Ed.), Embalagens para alimentos (1°). Universidade Estadual Paulista, Pró-Reitoria de Graduação. https://www.studocu.com/pt-br/document/universidade-de-sao-paulo/tecnologia-de-bebidas/embalagens-para-alimentos/11442610.

Kline, K., Yu, W., & Sanders, B. G. (2004). Vitamin E and breast cancer. Journal of Nutrition, 134(12), 3458–3462. https://doi.org/10.1093/jn/134.12.3458s.

Larrauri, M., Demaría, M. G., Ryan, L. C., Asensio, C. M., Grosso, N. R., & Nepote, V. (2016). Chemical and Sensory Quality Preservation in Coated Almonds with the Addition of Antioxidants. Journal of Food Science, 81(1), S208–S215. https://doi.org/10.1111/1750-3841.13164.

McKevith, B. (2005). Nutritional aspects of oilseeds. Nutrition Bulletin, 30(1), 13–26. https://doi.org/10.1111/j.1467-3010.2005.00472.x.

Mirzaei-Mohkam, A., Garavand, F., Dehnad, D., Keramat, J., & Nasirpour, A. (2020). Physical, mechanical, thermal and structural characteristics of nanoencapsulated vitamin E loaded carboxymethyl cellulose films. Progress in Organic Coatings, 138, 105383. https://doi.org/10.1016/j.porgcoat.2019.105383.

Oliveira, A. F., Assmann, V., & Soldi, V. (2007). Influência de plastificantes e umidade relativa em filmes de derivados de celulose: carboximetilcelulose e hidroxipopilmetilcelulose. CBPOL, 1–7. https://www.ipen.br/biblioteca/cd/cbpol/2007/PDF/542.pdf.

Paidari, S., Zamindar, N., Tahergorabi, R., Kargar, M., Ezzati, S., shirani, N., & Musavi, S. H. (2021). Edible coating and films as promising packaging: a mini review. Journal of Food Measurement and Characterization, 15(5), 4205–4214. https://doi.org/10.1007/s11694-021-00979-7.

Perini, J. Â. L., Stevanato, F. B., Sargi, S. C., Visentainer, J. E. L., Dalalio, M. M. O., Matshushita, M., Souza, N. E., & Visentainer, J. V. (2010). Ácidos graxos poli-insaturados n-3 e n-6: metabolismo em mamíferos e resposta imune. Revista Nutricional, 23(6), 1075–1086. https://doi.org/10.1590/S1415-5273201000060001.

Razavi, R., Maghsoudlou, Y., Aalami, M., & Ghorbani, M. (2021). Impact of carboxymethyl cellulose coating enriched with Thymus vulgaris L. extract on physicochemical, microbial, and sensorial properties of fresh hazelnut (Corylus avellana L.) during storage. Journal of Food Processing and Preservation, 45(4), 1–15. https://doi.org/10.1111/jfpp.15313.

Riveros, C. G., Mestrallet, M. G., Quiroga, P. R., Nepote, V., & Grosso, N. R. (2013). Preserving sensory attributes of roasted peanuts using edible coatings. International Journal of Food Science and Technology, 48(4), 850–859. https://doi.org/10.1111/ijfs.12036.

Riveros, C. G., Nepote, V., & Grosso, N. R. (2015). Thyme and basil essential oils included in edible coatings as a natural preserving method of oilseed kernels. Journal of the Science of Food and Agriculture, 96(1), 183–191. https://doi.org/10.1002/jsfa.7080.

Rodríguez, M., Osés, J., Ziani, K., & Maté, J. I. (2006). Combined effect of plasticizers and surfactants on the physical properties of starch based edible films. Food Research International, 39(8), 840–846. https://doi.org/10.1016/j.foodres.2006.04.002.

Schaich, K. M. (2013). Challenges in Elucidating Lipid Oxidation Mechanisms: When, Where, and How Do Products Arise? In A. Logan, U. Nienaber, & X. Pan (Eds.), Lipid Oxidation: Challenges in Food Systems, 1–52. AOCS Press. https://doi.org/10.1016/B978-0-9830791-6-3.50004-7.

Silva, M. L., Cardoso, Costa, R. S., Santana, S., Gabriela, M., & Koblitz, B. (2010). Phenolic compounds, carotenoids and antioxidant activity in plant products. Semina: Ciências Agrárias, 31(3), 669–682. http://dx.doi.org/10.5433/1679-0359.2010v31n3p669.

Silva Junior, E., Zanon Junior, G. B., Zanella, I., Raffin, R., Cielo, V., Rossato, J., & Bulhões, L. O. S. (2013). Formação de nanoemulsões do tipo óleo em água contendo óleo de semente de romã. Disciplinarum Scientia. Naturais e Tecnológicas, 14(1), 115–122. https://periodicos.ufn.edu.br/index.php/disciplinarumNT/article/view/1320/1252.

Soares, S. E. (2002). Phenolic acids as antioxidants. Revista de Nutrição, 15(1), 71–81. https://doi.org/10.1590/s1415-52732002000100008.

Tedesco, M. P., Garcia, V. A. S., Borges, J. G., Osiro, D., Vanin, F. M., Yoshida, C. M. P., & Carvalho, R. A. (2021). Production of oral films based on pre-gelatinized starch, CMC and HPMC for delivery of bioactive compounds extract from acerola industrial waste. Industrial Crops and Products, 170(1113684). https://doi.org/10.1016/j.indcrop.2021.113684.

Vidal, O. L., Santos, M. C. B., Batista, A. P., Andrigo, F. F., Baréa, B., Lecomte, J., Figueroa-Espinoza, M. C., Gontard, N., Villeneuve, P., Guillard, V., Rezende, C. M., Bourlieu-Lacanal, C., & Larraz Ferreira, M. S. (2022). Active packaging films containing antioxidant extracts from green coffee oil by-products to prevent lipid oxidation. Journal of Food Engineering, 312(110744). https://doi.org/10.1016/j.jfoodeng.2021.110744.

Villadiego, A. M. D., Soares, N. F. F., Andrade, N. J., Puschmann, R., Minim, V. P. R., & Cruz, R. (2005). Filmes e revestimentos comestíveis na conservação de produtos alimentícios. Revista Ceres, 52(300), 221–244. https://www.redalyc.org/articulo.oa?id=305242980005.

Published

25/04/2022

How to Cite

NASCIMENTO, D. R. .; GUERRA, I. C. .; MESQUITA, J. de A. .; HERNANDES, T. .; TAKEUCHI, K. P. . Importance of active edible coatings as a strategy to protect oilseeds against lipid oxidation processes found in the literature. Research, Society and Development, [S. l.], v. 11, n. 6, p. e21911629080, 2022. DOI: 10.33448/rsd-v11i6.29080. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/29080. Acesso em: 23 nov. 2024.

Issue

Section

Agrarian and Biological Sciences