Effect of adding curcumin and betacyclodextrin nanocomplex on some of the physicochemical, microbiological and sensory traits of yogurt | ||
Kirkuk University Journal For Agricultural Sciences | ||
Volume 14, Issue 4, December 2023, Pages 28-42 PDF (975.32 K) | ||
Document Type: Research Paper | ||
DOI: 10.58928/ku23.14403 | ||
Authors | ||
Safa M. Abdul-Hussein1; Sadeq M. Shawkat2 | ||
1Department of Dairy Science and Technology, College of Food Sciences, Al-Qasim Green University ,Babylon, Iraq. | ||
2Department of Dairy Science and Technology, College of Food Sciences, Al-Qasim Green University, Babylon, Iraq. | ||
Abstract | ||
The aim of this research is to study the effect of adding free curcumin and curcumin loaded with betacyclodextrin to laboratory-made yogurt by conducting a set of tests on the final product. Yogurt was prepared using three treatments. The first treatment was a standard yogurt without any additions, while the second treatment involved adding free curcumin (CU) at concentrations similar to the third treatment, which contained curcumin loaded with betacyclodextrin (B-CU) at concentrations of 100 and 200 μg/ml. which involved measuring the protein percentage, moisture percentage, fat percentage, and ash percentage of the samples studied from day one of production until day 28 of refrigerated storage, which were (4.61, 86.62, 5.64, 0.86) respectively. Various physical and rheological tests were conducted, including total acidity, pH, spontaneous whey separation, viscosity value, and water-holding capacity, which were (0.97, 4.61, 3.1, 2680, 72.36) respectively, up to day 28 of refrigerated storage. Microbiological tests were also conducted on the manufactured yogurt under the same conditions, which showed the efficiency of the active compound, whether in its free form or loaded with β-cyclodextrin, as a microbial inhibitor and preventing contamination of the manufactured product. The tests demonstrated the superiority of the B-CU treatment containing 200 mg/ ml of curcumin-loaded β-cyclodextrin over the other treatments. The sensory evaluation was well-received, ranging from (95-77)% from day one of production until day 28 of refrigerated storage. | ||
Keywords | ||
Nanotechnology,,; ,،Curcumin,,; ,،Betacyclodextrin,,; ,،Water holding capacity,,; ,،Yogurt | ||
References | ||
[1] Pradhan, N., Singh, S., Ojha, N., Srivastava, A., Barla, A., Rai, V., et al. (2015). Facets of nanotechnology as seen in food processing, packaging, and preservation industry. BioMed Res. Int. 2015:365672. Doi: 10.1155/2015/365672.
[2] Jochen Weiss, P. Takhistov, D.J. Mcclements, (2006). Functional materials in food nanotechnology J Food Sci, 71,pp. R107-R116.
[3] Abdollahi, M., Rezaei, M., & Farzi, G. (2012). A novel active bionanocomposite film incorporating rosemary essential oil and nanoclay into churnal of Food Engineering, 111(2), 343-350.
[4] Sadeq Muneer Shawkat, Mohammed Al-Jawasim and Luay Salam Khaleefah, Extending Shelf Life of Pasteurized Milk via Chitosan Nanoparticles, J Pure Appl Microbiol., 2019; 13(4):2471-2478. https://doi.org/10.22207/JPAM.13.4.62
[5] Gupta, A., Eral, H.B., Hatton, T.A. and Doyle, P.S. (2016). Nanoemulsions: formation, properties and applications. Soft Matter, 12: 2826-2841.
[6] Mihindukulasuriya, S.D.F. and Lim, L. T. (2014). Nanotechnology development in food packaging: a review. Trends Food Sci. Technol., 40: 149-167.
[7] Dominguez-Diaz, L. D., Fernandez-Ruiz, V. and Camara, M. (2020). An international regulatory review of food health-related claims in Functional food products labeling. Journal of Functional Foods 68: article ID 103896.
[8] Granato, D., Barba, F. J., Bursac Kovacevic, D., Lorenzo, J. M., Cruz, A. G. and Putnik, P. (2020). Functional foods: product development, technological trends, efficacy testing, and safety. Annual Review of Food Science and Technology 11:93-118.
[9] Li, H., Sureda, A., Devkota, H. P., Pittala, V., Barreca, D., Silva, A. S., … and Nabavi, S. M. (2020). Curcumin, the golden spice in treating cardiovascular diseases. Biotechnology Advances 38: article ID 107343.
[10] Patel, S. S., Acharya, A., Ray, R. S., Agrawal, R., Raghuwanshi, R. and Jain, P. (2020). Cellular and molecular mechanisms of curcumin in prevention and treatment of disease. Critical Reviews in Food Science and Nutrition 60(6): 887-939.
[11] Rachmawati, H., Edityaningrum, C. A., & Mauludin, R. (2013). Molecular inclusion complex of curcumin-β-cyclodexetrin nanoparticle to enhance curcumin skin permeability from hydrophilic matrix gel. Aaps Pharmscitech, 14(4), 1303-1312.
[12] Sadiq, Esraa Haider (2019). Study of the effect of fortification of yoghurt with iron-coated iron on its physicochemical, rheological and nutritional properties. Master Thesis - College of Agriculture - University of Baghdad.
[13] Al-Abadi, Muhammad Muzaffar Khalil. (2014). Efficacy of some biostimulants in fermented milk products and soft cheese. Master’s Thesis - College of Agriculture - University of Baghdad.
[14] Tamime, A. Y. and Robinson, R. K. (2007). Yoghurt Science and Technology. Pergmon Press Ltd., Oxford.
[15] Amatayakul, T.; Sherkat, F. and Shah, N. P. (2006). Syneresis in set yogurt as affected by EPS starter cultures and levels of solids. Int. J. Dairy Tech. 59. 216-221.
[16] Sharaf A, Al-Shaikh, et al., (2018). Study of the effect of selenium fortification on the physiochemical and sensory properties of functional eugrits. Journal of Karbala Agricultural Sciences, 5(2), 72-90.
[17] AOAC (2005) Official method of Analysis. 18th Edition, Association of Officiating Analytical Chemists, Washington DC, Method 935.14 and 992.24.
[18] AOAC (2008) Official Methods of Analysis. 17th Edition, The Association of Official Analytical Chemists, Gaithersburg, MD, USA. Methods 925.10, 65.17, 974.24, 992.16.
[19] Koletzoko. B.. Baker. S.. Cleghorn. G.. Neto. U. F.. Gopalan. S.. Hernell. O.. & Pzyrembel. H. (2005). Global standard for the composition of infant formula: recommendations of an ESPGHAN coordinated international expert group. Journal of pediatric gastroenterology and nutrition. 41(5). 584-599.
[20] Donkor, O.N.; Nilmini S.L.I.; Stolic P., Vasiljevic T.; and Shah N.P., (2007). Survival and activity of selected probiotic organisms in set-type yoghurt during cold storage. Int. Dairy J. 17, 657-665.
[21] Wolf IV, Bergamini CV, Perotti MC& Hynes ER (2013). Sensory and flavor characteristics of milk. Milk and dairy products in human nutrition: Production, Composition and Health, pp 310-337.
[22] Remeuf, F., S. Mohammed, I. Sodini, and J. P. Tissier. 2003. Prelimi-nary observations on the effects of milk fortification and heatingon microstructure and physical properties of stirred yogurt. Int.Dairy J. 13:773–782.
[23] Taiwo OS, Afolabi RO, Oranusi SU,Owolabi JB, Oloyede AR, Isibor PO, IgeOJ. Microbiological assessment ofcommercial yogurt sold in Ota Metropolis,Ogun State, Nigeria. IOP ConferenceSeries: Earth and Environmental Science.2018; 210:012019.
[24] Ziena, H., Nasser, S. A., & Dairy, R. (2019). Iron fortified yoghurt: Effect of different iron salts on the properties of yoghurt. Advances in Dairy Research, 7(2).
[25] APHA (1989) Standard Methods for the Examination of Water and Wastewater, Part 3, Determination of Metals. 17th, American Public Health Association, Washington DC, 164.
[26] Gentès, M.; St-Gelais, D.; Turgeon, S.L. Exopolysaccharide–milk Protein Interactions in a Dairy Model System Simulating YoghurtConditions. Dairy Sci. Technol. 2013, 93, 255–271
[27] Dosh, K.S. and S.K. Mohamed (2017). study of thephysiochemical, rheological and sensory properties of alactoferrin supported yogurt. Euphrates Journal ofAgriculture Science, 9(4): 128-188.
[28] Al-Badrany, Dia Ibrahim Jaru Haider (2017). Effect of milk treatment with different heat treatments on the activity of initiator bacteria and the physicochemical, rheological and sensory characteristics of the product. Al-Furat Journal of Agricultural Sciences, 9 (4): 180-197.
[29] Guler-Akin, M. B., & Akin, M. S. (2007). Effects of cysteine and different incubation temperatures on the microflora, chemical composition and sensory characteristics of bio-yogurt made from goats milk. Food Chemistry, 100(2), 788-793.
[30] Arslan, S., & Bayrakçi, S. (2016). Physicochemical, functional, and sensory properties of yogurts containing persimmon. Turkish Journal of Agriculture and Forestry, 40, 68-74. http:/dx.doi.org/10.3906/tar-1406-150.
[31] Madrigal-Carballo, S., Rodriguez, G., Krueger, C. G., Dreher, M., & Reed, J. D. (2009). Pomegranate (Punica grantum) supplements: Authenticity, antioxidant and polyphenol cpmosition. Journal of Functional Foods, 1, 324-329.
[32] Ravaei, A., Heshmatti poor, Z., Salehi, T.Z., Tamai,I.A., Ghane, M. and Derakhshan pour, J. (2013)Evaluation of antimicrobial activity of threeLactobacillus spp. against antibiotic resistanceSalmonella typhimurium. Adv.Stud.Biol., 5(2): 61-70. | ||
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