Physico-Chemical, antioxidant activities, textural, and sensory properties of yoghurt fortified with different states and rates of pomegranate seeds (Punica granatum L.)

Bchir, B.; Bouaziz, M. A.; Blecker, Christophe; Attia, H.

doi:10.1111/jtxs.12500

Article (Scientific journals)

Physico-Chemical, antioxidant activities, textural, and sensory properties of yoghurt fortified with different states and rates of pomegranate seeds (Punica granatum L.)

Bchir, B.; Bouaziz, M. A.; Blecker, Christophe et al.

2020 • In Journal of Texture Studies, 51, p. 475-487

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/248565

DOI
10.1111/jtxs.12500

PubMed
31785164

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Keywords :

Anthocyanins; Antioxidants; Digital storage; Physicochemical properties; Plants (botany); Sensory analysis; Anthocyanin content; Anti-oxidant activities; Natural ingredients; Nutritional properties; Overall acceptability; Pomegranate seeds; Sensory attributes; Sensory properties; Principal component analysis

Abstract :

[en] This study examines the effects of incorporating fresh, frozen, osmodehydrated, and dried pomegranate seeds, at different concentrations (5, 10, and 20%) on the physicochemical, antioxidant, textural, and sensory properties of yoghurt. Antioxidant activity, pH, acidity, syneresis, and color of yoghurt were also evaluated during the storage (28 days) at 4°C. The principal component analysis (PCA) was performed to assess the correlations between different yoghurt formulation and their sensory attributes. Data showed that the addition of pomegranate seeds reduced pH and modified the chromatics coordinate (L*, a*, b*, C*, h°) and firmness of the yoghurt samples. In addition, acidity, °Brix, and syneresis increased compared to the control. Thanks to their high anthocyanin content, pomegranate seeds considerably improved the antioxidant activity essentially for yoghurt enriched with frozen seeds. In addition, the supplementation of 20% of frozen seeds into yoghurt was the most appreciated by panelists and improved the sensory properties in comparison to other formulation. According to PCA, taste and appearance were the main criteria for the overall acceptability of yoghurt. After 28 days of storage, the reddish color was reinforced; however, the antioxidant activity of yoghurts was reduced. Overall, it can be concluded that pomegranate seeds can be used as a natural ingredient to develop a novel yoghurt with high nutritional properties. © 2019 Wiley Periodicals, Inc.

Disciplines :

Food science

Author, co-author :

Bchir, B.; Department of Biology, Laboratory of Analysis Valorization and Food Safety, University of Sfax/National School of Engineers of Sfax, Sfax, Tunisia

Bouaziz, M. A.; Department of Biology, Laboratory of Analysis Valorization and Food Safety, University of Sfax/National School of Engineers of Sfax, Sfax, Tunisia

Blecker, Christophe ; Université de Liège - ULiège > Département GxABT > SMARTECH

Attia, H.; Department of Biology, Laboratory of Analysis Valorization and Food Safety, University of Sfax/National School of Engineers of Sfax, Sfax, Tunisia

Language :

English

Title :

Physico-Chemical, antioxidant activities, textural, and sensory properties of yoghurt fortified with different states and rates of pomegranate seeds (Punica granatum L.)

Publication date :

2020

Journal title :

Journal of Texture Studies

ISSN :

0022-4901

eISSN :

1745-4603

Publisher :

Blackwell Publishing Ltd

Volume :

Pages :

475-487

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 16 June 2020

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Bibliography

Ali, M. (2016). Influence of pomegranate Punica granatum as phytochemical rich components on yoghurt drink characteristics. Middle East Journal of Applied, 6, 23–26.
Arts, M., Haenen, G., Wilms, L., Beetstra, S., Heijne, C., Voss, H., & Bast, A. (2002). Interactions between flavonoids and proteins: Effect on the total antioxidant capacity. Journal of Agricultural and Food Chemistry, 50, 1184–1187.
Bansode, V. (2012). Studies on effect of initial pH, storage temperature and preservatives on shelf life of yoghurt. Indian Journal of Dairy Science, 65, 388–399.
Barkallah, M., Dammak, M., Louati, I., Hentati, F., Hadrich, B., Mechichi, T., … Abdelkafi, S. (2017). Effect of Spirulina platensis fortification on physicochemical, textural, antioxidant and sensory properties of yoghurt during fermentation and storage. LWT-Food Science and Technology, 84, 323–330.
Bchir, B., Besbes, S., Attia, H., & Blecker, C. (2009). Osmotic dehydration of pomegranate seeds: Mass transfer kinetics and differential scanning calorimetry characterization. International Journal of Food Science and Technology, 44, 2208–2217.
Bchir, B., Besbes, S., Karoui, R., Attia, H., Paquot, M., & Blecker, C. (2012). Effect of air-drying conditions on physico-chemical properties of osmotically pre-treated pomegranate seeds. Food Bioprocess Technology, 5, 1840–1852.
Bchir, B., Jean-François, T., Rabetafika, N., & Blecker, C. (2017). Effect of pear apple and date fibres incorporation on the physico-chemical, sensory, nutritional characteristics and acceptability of cereal bars. Journal of Food Science and Technolologie International, 24, 198–208.
Dak, M., Jaaffrey, S., & Gupta, R. (2014). Moisture-dependent physical properties of dried pomegranate arils. Journal of Food Measurement and Characterization, 8, 234–240.
Debashis, K., Saha, T., Akter, M., Hosain, M., Khatun, H., & Chandra, M. (2015). Quality evaluation of yogurt supplemented with fruit pulp (banana, papaya, and water melon). International Journal of Nutrition and Food Sciences, 4, 695–699.
Dubeau, S., Samson, G., & Tajmir-Riahi, H. (2010). Dual effect of milk on the antioxidant capacity of green, Darjeeling, and English breakfast teas. Food Chemistry, 122, 539–545.
Eda, Y., & Tulay, O. (2018). Functional and textural properties of vegetable-fibre enriched yoghurt. Journal of Texture Studies, 72, 199–207.
Ersöz, E., Kınık, Ö., Yerlikaya, O., & Açu, M. (2011). Effect of phenolic compounds on characteristics of strained yoghurts produced from sheep milk. African Journal of Agricultural Research, 23, 5351–5359.
Felfoul, I., Borchani, M., Samet-Bali, O., Attia, H., & Ayadi, M. (2017). Effect of ginger (Zingiber officinalis) addition on fermented bovine milk: Rheological properties, sensory attributes and antioxidant potential. Journal of New Sciences, 44, 2400–2409.
Fermenia, A., Lefebvre, C., Thebaudin, Y., Robertson, J., & Bourgeois, C. (1997). Physical and sensory properties of model foods supplemented with cauliflower fiber. Journal of Food Science, 62, 635–639.
Francisco, A., Ángel, C., Nallely, N., Ángel, A., Francisca, H., & Juan, J. (2015). Classification of pomegranate cultivars according to their seed hardness and wood perception. Journal of Texture Studies, 46, 467–474.
Gad, A., & Abd-El-salam, M. (2010). The antioxidant properties of skim milk supplemented with rosemary and green tea extracts in response to pasteurisation, homogenisation and the addition of salts. International Journal of Dairy Technology, 63, 349–355.
Gaston, A., Paroli, C., & Federico, H. (2006). Measurement of firmness of stirred yogurt in routine quality control. Journal of Food Quality, 29, 628–642.
Ghaeni, M., & Roomiani, L. (2016). Review for application and medicine effects of Spirulina, Spirulina platensis microalgae. Journal of Advanced Agricultural Technologies, 3, 114–117.
Gomah, T., Mohamed, T., & Dina, M. (2014). Antimicrobial and antioxidant effects of pomegranate on bio yoghurt fortified with its pith and juice. Pakistan Journal of Sciences, 24, 111–120.
Gumienna, M., Szwengiel, A., & Górna, B. (2015). Bioactive components of pomegranate fruit and their transformation by fermentation processes. European Food Research and Technology, 242, 631–640.
Kharchoufi, S., Mahmoud, M., Loupassaki, S., & Hamdi, M. (2017). Quality mentoring of Greek yoghurt fortified with pomegranate juice and arils (Punica granatum L.) during storage. Journal of New Science, 44, 2430–2437.
Khoualdia, B., Samia, B., & Hannachi, A. (2018). Mass transfer during osmotic dehydration of Tunisian pomegranate seeds and effect of blanching pretreatment. International Journal of Chemical Engineering, 2018, 9. https://doi.org/10.1155/2018/2041056
Kirca, A., Özkan, M., & Cemeroğlu, B. (2007). Effects of temperature, solid content and pH on the stability of black carrot anthocyanins. Food Chemistry, 101, 212–218.
Kulkarni, A., & Aradhya, S. (2005). Chemical changes and antioxidant activity in pomegranate arils during fruit development. Food Chemistry, 93, 319–324.
Małgorzata, G., Artur, S., & Barbara, G. (2016). Bioactive components of pomegranate fruit and their transformation by fermentation. European Food Research and Technology, 242, 631–640.
Mariana, A., Lima, V., Silva, A., Vilarinho, F., Conceição, M., Khwaldia, K., & Ramos, F. (2019). Pomegranate and grape by-products and their active compounds: Are they a valuable source for food applications? Trends in Food Science & Technology, 86, 68–84.
McKinley, C. (2005). The nutrition and health benefits of yoghurt. International Journal of Dairy Technology, 58, 1–12.
Mena, P., Calani, L., Dall'Asta, C., Galaverna, G., García-Viguera, C., Bruni, R., … Del Rio, D. (2012). Rapid and comprehensive evaluation of (poly) phenolic compounds in pomegranate (Punica granatum L.) juice by UHPLC-MSn. Molecules, 17, 14821–14840.
Mphahlele, R., Fawole, O., Makunga, N., & Opara, U. (2017). Functional properties of pomegranate fruit parts: Influence of packaging systems and storage time. Journal of Food Measurement and Characterization, 11, 2233–2246.
Ozgen, M., Onur, S., & Esma, N. (2013). Antioxidant capacity and chemical properties of selected barberry (Berberis vulgaris L.) fruits. Horticulture, Environment, and Biotechnology, 53, 447–451.
Patroklos, V., Adamopoulos, K., Stavrakakis, E., Stefanakis, A., & Goula, A. (2016). Approaches to minimise yoghurt syneresis in simulated tzatziki sauce preparation. International Journal of Dairy Technology, 69, 191–199.
Poyrazoglu, E., Gokmen, E., & Artik, N. (2002). Organic acids and phenolic compounds in pomegranates (Punica granatum L.) grown in Turkey. Journal of Food Composition and Analysis, 15, 567–575.
Rahmani, A., Alsahli, M., & Almatroodi, S. (2017). Active constituents of pomegranates (Punica granatum) as potential candidates in the management of health through modulation of biological activities. Pharmacognosy Journal, 9, 689–695.
Rasool, K., Bagher, E., Mehdi, K., & Mahmood, R. (2019). Instrumental measurement of pomegranate texture during four maturity stages. Journal of Texture Studies, 50(5), 410–415. https://doi.org/10.1111/jtxs.12406
Robert, P., Tamara, G., Nalda, R., Elena, S., Jorge, C., & Carmen, S. (2010). Encapsulation of polyphenols and anthocyanins from pomegranate (Punica granatum L.) by spray drying. International Journal of Food Science & Technology, 45, 1386–1394.
Rowayshed, G., Salama, A., Abul-Fadl, M., Akila-Hamza, S., & Mohamed, E. (2013). Nutritional and chemical evaluation for pomegranate (Punica granatum L.) fruit Peel and seeds powders by products. Middle East Journal of Applied Sciences, 3, 169–179.
Salvador, A., & Fiszman, S. (2004). Textural and sensory characteristics of whole and skimmed flavored set-type yoghurt during long storage. Journal of Dairy Science, 87, 4033–4041.
Shori, A. (2013). Antioxidant activity and viability of lactic acid bacteria in soybean-yogurt made from cow and camel milk. Journal of Taibah University for Science, 7, 202–208.
Trigueros, L., Aneta, W., & Esther, S. (2014). Antioxidant activity and protein-polyphenol interactions in a pomegranate (Punica granatum L.) yogurt. Journal of Agricultural and Food Chemistry, 62, 6417–6425.
Viladomiu, M., Hontecillas, R., Lu, P., & Basseganya-Riera, J. (2013). Preventive and prophylactic mechanisms of action of pomegranate bioactive compounds. Evidence Based Complementary Alternative Medicine Journal, 2, 1–18.
Viuda-Martos, M., Ruiz-Navajas, Y., Fernández-López, J., & Pérez-Álvarez, J. (2010). Effect of added citrus fibre and spice essential oils on quality characteristics and shelf-life of mortadella. Meat Science, 85, 568–576.
Zahra, N., Ali, F., Saeed, H., Masoud, S., Somayeh, G., Ali, M., & Seyed, A. (2012). Genetic variation among Iranian pomegranates (Punica granatum L.) using RAPD, ISSR and SSR markers. Australian Journal of Crop Science, 6, 268–275.
Zaouay, F., Hadj-Salem, H., Labidi, R., & Mars, M. (2014). Development and quality assessment of new drinks combining sweet and sour pomegranate juices. Emirates Journal of Food and Agriculture, 26, 01–08.