Potential probiotic goat yogurt – a review

Authors

DOI:

https://doi.org/10.33448/rsd-v12i5.41584

Keywords:

Functional food; Fermentation; Dairy goats; Revision.

Abstract

Functional foods have been gaining prominence in recent years due to the greater search for healthy eating. The effects responsible for its benefits are metabolic and physiological, capable of providing better performance to the body by its regular consumption, like yogurt, a fermented milk so popular among all audiences. Due to the scarcity of published references regarding goat dairy products, the bibliographic study of the characteristics of goat yogurt with probiotic potential is considered of great importance in order to investigate the functionality and satisfactory results in addition to the organoleptic characteristics, but mainly in the sensorial and technologies. In this context, goat yogurt, as explained in the study and corroborated in bibliographical research, constitutes a food of high nutritional and functional value, presenting a higher acceptability index given the improvements in sensory attributes, in terms of flavor, aroma and texture, given the potential emphasized in the literature when added ingredients such as probiotics, prebiotics, pulps, extracts and among others, becoming a product with better organoleptic and bioactive functional properties.

References

Ahmad, I., Hao, M., Li, Y., Jianyou, Z., Yuting, D., & Lyu, F. (2022). Fortification of yogurt with bioactive functional foods and ingredients and associated challenges-A review. Trends in Food Science & Technology.

Arslan, S., & Özel, S. (2012). Some properties of stirred yoghurt made with processed grape seed powder, carrot juice or a mixture of grape seed powder and carrot juice. Milchwissenschaft, 67(3), 281-285.

Bezerril, F. F., Pimentel, T. C., da Silva Sant’Ana, A. M., de Souza, M. D. F. V., de Medeiros, L. L., Galvão, M., & Magnani, M. (2022). Lacticaseibacillus casei 01 improves the sensory characteristics in goat milk yogurt added with xique-xique (Pilosocereus gounellei) jam through changes in volatiles concentration. LWT, 154, 112598.

BRASIL. Ministério da Agricultura, Pecuária e Abastecimento. (2007). Instrução Normativa nº 46, de 23 de outubro de 2007. Adota o regulamento técnico de identidade e qualidade de leites fermentados. Diário Oficial da União, 4-4.

Cais-Sokolińska, D., & Walkowiak-Tomczak, D. (2021). Consumer-perception, nutritional, and functional studies of a yogurt with restructured elderberry juice. Journal of Dairy Science, 104(2), 1318-1335.

Campos, D. C. D. S., Neves, L. T. B. C., Flach, A., Costa, L. A. M. A., & Sousa, B. O. D. (2017). Post-Acidification and evaluation of anthocyanins stability and antioxidan activity in açai fermented milk and yogurts (Euterpe oleracea Mart.). Revista Brasileira de Fruticultura, 39.

Cordeiro, A. M, Oliveira, G. M, Rentería, J. M, Guimarães, C. A. Revisão sistemática: uma revisão narrativa. Rev Col Bras Cir 2007; 34:428-431.

Da Silva Dantas, D. L., Viera, V. B., Soares, J. K. B., dos Santos, K. M. O., do Egito, A. S., de Figueirêdo, R. M. F., & de Oliveira, M. E. G. (2022). Pilosocereus gounellei (xique-xique) flour: Improving the nutritional, bioactive, and technological properties of probiotic goat-milk yogurt. LWT, 158, 113165.

Darcan, N. K., & Silanikove, N. (2018). The advantages of goats for future adaptation to Climate Change: A conceptual overview. Small Ruminant Research, 163, 34-38.

De Moraes, G. M. D., dos Santos, K. M. O., de Barcelos, S. C., Lopes, S. A., & do Egito, A. S. (2018). Potentially probiotic goat cheese produced with autochthonous adjunct culture of Lactobacillus mucosae: Microbiological, physicochemical and sensory attributes. Lwt, 94, 57-63.

De Oliveira, G. S., Miranda, M. I., & dos Santos Saad, N. (2020). Metassíntese: uma modalidade de pesquisa qualitativa. Cadernos da FUCAMP, 19(42).

De Oliveira, A. P. D., de Oliveira Almeida, T. J., Santos, T. M. B., & Dias, F. S. (2021). Symbiotic goat milk ice cream with umbu fortified with autochthonous goat cheese lactic acid bacteria. LWT, 141, 110888.

De Santis, D., Giacinti, G., Chemello, G., & Frangipane, M. T. (2019). Improvement of the sensory characteristics of goat milk yogurt. Journal of food science, 84(8), 2289-2296.

De Souza, E. L., de Albuquerque, T. M. R., Dos Santos, A. S., Massa, N. M. L., & de Brito Alves, J. L. (2019). Potential interactions among phenolic compounds and probiotics for mutual boosting of their health-promoting properties and food functionalities–A review. Critical reviews in food science and nutrition, 59(10), 1645-1659.

Deshwal, G. K., Tiwari, S., Kumar, A., Raman, R. K., & Kadyan, S. (2021). Review on factors affecting and control of post-acidification in yoghurt and related products. Trends in Food Science & Technology, 109, 499-512.

Food and Agricultural Organization of the United Nations and World Health Organization. Joint FAO/WHO working group report on drafting guidelines for the evaluation of probiotics in food. Food and Agricultural Organization of the United Nations [online], (2013).

Freire, F. C., Adorno, M. A. T., Sakamoto, I. K., Antoniassi, R., Chaves, A. C. S. D., Dos Santos, K. M. O., & Sivieri, K. (2017). Impact of multi-functional fermented goat milk beverage on gut microbiota in a dynamic colon model. Food Research International, 99, 315-327.

Granato, D., Nunes, D. S., & Barba, F. J. (2017). An integrated strategy between food chemistry, biology, nutrition, pharmacology, and statistics in the development of functional foods: A proposal. Trends in Food Science & Technology, 62, 13-22.

Guo, M. R. (2020). Goat milk chemistry and its product manufacturing technology. S. Jiang (Ed.). Goat Milk Products and Their Manufacturing Technology, Nova Science Publishers, Inc pp. 152-153.

Hill, C., Guarner, F., Reid, G., Gibson, G. R., Merenstein, D. J., Pot, B. & Sanders, M. E. (2014). Expert consensus document: The International Scientific Association for Probiotics and Prebiotics consensus statement on the scope and appropriate use of the term probiotic. Nature reviews Gastroenterology & hepatology.

Jia, W., Liu, Y., & Shi, L. (2021). Integrated metabolomics and lipidomics profiling reveals beneficial changes in sensory quality of brown fermented goat milk. Food Chemistry, 364, 130378.

Kandylis, P., Dimitrellou, D., & Moschakis, T. (2021). Recent applications of grapes and their derivatives in dairy products. Trends in Food Science & Technology, 114, 696-711.

Karnopp, A. R., Oliveira, K. G., de Andrade, E. F., Postingher, B. M., & Granato, D. (2017). Optimization of an organic yogurt based on sensorial, nutritional, and functional perspectives. Food Chemistry, 233, 401-411.

Keast, D. R., Hill Gallant, K. M., Albertson, A. M., Gugger, C. K., & Holschuh, N. M. (2015). Associations between yogurt, dairy, calcium, and vitamin D intake and obesity among US children aged 8–18 years: NHANES, 2005–2008. Nutrients, 7(3), 1577-1593.

Lima, B. F. (2017). Viabilidade de probióticos em leites fermentados comerciais e sua resistência após exposição às condições ácidas.

Machado, T. A. D. G., de Oliveira, M. E. G., Campos, M. I. F., de Assis, P. O. A., de Souza, E. L., Madruga, M. S., & do Egypto, R. D. C. R. (2017). Impact of honey on quality characteristics of goat yogurt containing probiotic Lactobacillus acidophilus. Lwt, 80, 221-229.

Martinelli, S. S., & Cavalli, S. B. (2019). Alimentação saudável e sustentável: uma revisão narrativa sobre desafios e perspectivas. Ciência & Saúde Coletiva, 24, 4251-4262.

Mazzaglia, A., Legarová, V., Giaquinta, R., Lanza, C. M., & Restuccia, C. (2020). The influence of almond flour, inulin and whey protein on the sensory and microbiological quality of goat milk yogurt. LWT, 124, 109138.

Meybodi, N. M., & Mortazavian, A. (2017). Probiotic supplements and food products: a comparative approach. Biochem Pharmacol, 6(2), 2167-0501.

Miloradovic, Z., Tomic, N., Kljajevic, N., Levic, S., Pavlovic, V., Blazic, M., & Miocinovic, J. (2021). High Heat Treatment of Goat Cheese Milk. The Effect on Sensory Profile, Consumer Acceptance and Microstructure of Cheese. Foods, 10(5), 1116.

Miocinovic, J., Miloradovic, Z., Josipovic, M., Nedeljkovic, A., Radovanovic, M., & Pudja, P. (2016). Rheological and textural properties of goat and cow milk set type yoghurts. International Dairy Journal, 58, 43-45.

Moatsou, G., Moschopoulou, E., Mollé, D., Gagnaire, V., Kandarakis, I., & Léonil, J. (2008). Comparative study of the protein fraction of goat milk from the Indigenous Greek breed and from international breeds. Food chemistry, 106(2), 509-520.

Moschopoulou, E., Sakkas, L., Zoidou, E., Theodorou, G., Sgouridou, E., Kalathaki, C., ... & Moatsou, G. (2018). Effect of milk kind and storage on the biochemical, textural and biofunctional characteristics of set-type yoghurt. International dairy journal, 77, 47-55.

Muelas, R., Monllor, P., Romero, G., Sayas-Barberá, E., Navarro, C., Díaz, J. R., & Sendra, E. (2017). Milk technological properties as affected by including artichoke by-products silages in the diet of dairy goats. Foods, 6(12), 112.

Navarrete-Molina, C., Meza-Herrera, C. A., Herrera-Machuca, M. A., Macias-Cruz, U., & Veliz-Deras, F. G. (2020). Not all ruminants were created equal: Environmental and socio-economic sustainability of goats under a marginal-extensive production system. Journal of Cleaner Production, 255, 120237.

Nguyen, H. T., Gathercole, J. L., Day, L., & Dalziel, J. E. (2020). Differences in peptide generation following in vitro gastrointestinal digestion of yogurt and milk from cow, sheep and goat. Food Chemistry, 317, 126419.

Noziere, P., Graulet, B., Lucas, A., Martin, B., Grolier, P., & Doreau, M. (2006). Carotenoids for ruminants: From forages to dairy products. Animal Feed Science and Technology, 131(3-4), 418-450.

Park, Y. W., & Haenlein, G. F. (Eds.). (2008). Handbook of milk of non-bovine mammals. John Wiley & Sons.

Park, Y. W., Juárez, M., Ramos, M., & Haenlein, G. F. W. (2007). Physico-chemical characteristics of goat and sheep milk. Small ruminant research, 68(1-2), 88-113.

Peacock, C., & Sherman, D. M. (2010). Sustainable goat production—Some global perspectives. Small Ruminant Research, 89(2-3), 70-80.

Pontes, E. D. S. (2022). Desenvolvimento e caracterização de iogurte caprino com potencial funcional adicionado do extrato de malvavisco (Malvaviscus arboreus Cav.).

Ranadheera, C. S., Evans, C. A., Baines, S. K., Balthazar, C. F., Cruz, A. G., Esmerino, E. A. & Vasiljevic, T. (2019). Probiotics in goat milk products: delivery capacity and ability to improve sensory attributes. Comprehensive Reviews in Food Science and Food Safety, 18(4), 867-882.

Ribeiro, C. A. C. (2020). Efeito do processo de pasteurização sobre a qualidade química, aromática e sensorial do leite caprino do cariri paraibano.

Rother, E. T. Revisão sistemática X revisão narrativa. Acta Paul Enferm 2007; 20: v-vi.

Santos, W. (2022). Uso de cepa nativa de Lactiplantibacillus plantarum e farinha da casca de jabuticaba no desenvolvimento de leite fermentado concentrado potencialmente probiótico e prebiótico.

Tian, M., Cheng, J., Wang, H., Xie, Q., Wei, Q., & Guo, M. (2022). Effects of polymerized goat milk whey protein on physicochemical properties and microstructure of recombined goat milk yogurt. Journal of Dairy Science, 105(6), 4903-4914.

Tremblay, A., & Panahi, S. (2017). Yogurt consumption as a signature of a healthy diet and lifestyle. The Journal of Nutrition, 147(7), 1476S-1480S.

Verruck, S., Dantas, A., & Prudencio, E. S. (2019). Functionality of the components from goat’s milk, recent advances for functional dairy products development and its implications on human health. Journal of functional foods, 52, 243-257.

Wang, H., Sun, X., Song, X., & Guo, M. (2021). Effects of kefir grains from different origins on proteolysis and volatile profile of goat milk kefir. Food Chemistry, 339, 128099.

Watkins, P. J., Jaborek, J. R., Teng, F., Day, L., Castada, H. Z., Baringer, S., & Wick, M. (2021). Branched chain fatty acids in the flavour of sheep and goat milk and meat: A review. Small Ruminant Research, 200, 106398.

Znamirowska, A., Buniowska, M., & Kuzniar, P. (2018). Wzbogacanie mleczanem magnezu i wapnia mlecznych napojów fermentowanych przez Bifidobacterium animalis ssp. lactis Bb-12. Zeszyty Problemowe Postępów Nauk Rolniczych, 592.

Znamirowska, A., Szajnar, K., & Pawlos, M. (2019). Organic magnesium salts fortification in fermented goat’s milk. International Journal of Food Properties, 22(1), 1615-1625.

Znamirowska, A., Szajnar, K., Pawlos, M., & Kalicka, D. (2021). Effect of Magnesium D-Gluconate Fortification on Heat Stability of Goat’s Milk and Physicochemical Properties, Sensory Characteristic and Texture Profile of Yoghurts during Cold Storage. Journal of Microbiology, Biotechnology and Food Sciences, 2021, 68-72.

Published

13/05/2023

How to Cite

ORIENTE, S. F. do .; SILVA, P. I. S. e .; RAMOS, N. J. da S. .; GUSMÃO, T. A. de S. .; GUSMÃO, R. P. de .; PASQUALI, M. A. de B. . Potential probiotic goat yogurt – a review. Research, Society and Development, [S. l.], v. 12, n. 5, p. e13712541584, 2023. DOI: 10.33448/rsd-v12i5.41584. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/41584. Acesso em: 21 nov. 2024.

Issue

Section

Review Article