Evaluation of Using Salep and Chitosan Hydrocolloid as Stabilizers and Fat Replacer in Physicochemical and Rheological Features of Low-Fat Mayonnaise
محورهای موضوعی : food microbiology
1 - M. Sc. Graduated of the Department of Food Science and Technology, Shahr-e-Qods Branch, Islamic Azad University, Tehran, Iran.
2 - Assistant Professor of the Department of Food Science and Technology, Shahr-e-Qods Branch, Islamic Azad University, Tehran, Iran.
کلید واژه: Chitosan, Low-Fat Mayonnaise, Salep,
چکیده مقاله :
In the present study, salep and chitosan hydrocolloid were used as stabilizers and fat replacer in low-fat mayonnaise and rheological and physicochemical characteristics were evaluated. Fat has been substituted with 0.1, 0.2 and 0.3% chitosan and 6.4, 0.0, 0.7, 1.0 and 1.3% salep. High-fat mayonnaise sample or control with 67% fat and without salep and chitosan(FF), mayonnaise with 67% fat and 0.4% salep and 0.2% chitosan(F1), mayonnaise with 48% fat and 0.6% salep(F2), mayonnaise with 30% fat and 1.3% salep(F3), mayonnaise with 30% fat and 1% salep and 0.1% chitosan(F4), mayonnaise with 30% fat and 0.7% salep and 0.2% chitosan(F5) and mayonnaise with 30% fat and 0.6% salep and 0.3% chitosan(F6) were used as treatments of the present study. The results showed that salep and chitosan hydrocolloids could increase the viscosity of low-fat mayonnaise samples by absorbing water as well as substitution role for fat to increase the stability of low-fat mayonnaise. Among the produced samples, F1 and F2 had the most similarity to the control sample. All the samples (both control ad low-fat samples) did not have significant microbial load and the pH and acidity were at the allowed level. Creamy and phase separation phenomenon was not observed among the samples. Based on the results, it can be concluded that salep and chitosan hydrocolloids are proper substitutes for common high-fat mayonnaises and can be employed in the formula of low-fat mayonnaise without changing the qualitative features of the product significantly.
Amiri Aghdaee, S., Alami, M. & Rezaee, R. (2010). Possibility of using tragacanth gum and maltodextrin as a substitution of fat in mayonnaise sauce. Electronic journal of processing and keeping nutrition, 2nd. 3
Amiri Aghdaee, S., Alami, M., Sadeghi, A. & Jafari, M. (2011). The effect of hulless barley beta-glucan as fat emulator on chemical, physical, texture and sensory features of low fat mayonnaise. The Journal of Food Industries Researches, 22 (2), 141-154.
Amir Kavee, S. (2004). Production of low calorie salad sauces. MSC dissertation, Tarbiat Modares University.
Karbasi, A., Barzegar, H., Jamalian, J. & Amin Lari, M. (2006). Possibility of using chitosan as a natural retentive in mayonnaise sauce. Quarterly of Science and Technology of Agriculture and Natural Resources, 12(43), 361-370.
Kaya, S. & Tekin, A. (2001). The effect of Salap content on rheological characteristics of a typical icecream mix. Journal of Food Engineering, 47(1), 59-62.
Chen C. S., Liau W. Y. & Tsai G. J. (1998). Antibacterial of N-sulfonated and N-sulfobenzoyl chitosan and application to oyster preservation. Journal of Food Protection, 61(9), 1124-1128.
Jia, Z., Chen, D. & Xu, W. (2001). Synthesis and anti-bacterial activity of chitosans of quaternary ammonium salt of chitosan. Carbohydrate Research, 33, 1-6.
Maghsoudi, S. (2005). Novel technology in production of different sauces. Tehran:Marz Danesh Pub.
National organization of Iran standard, chemical tests of mayonnaise sauce, Standard No. 997.
National organization of Iran standard, chemical tests of mayonnaise sauce, Standard No. 1810.
National organization of Iran standard, chemical tests of mayonnaise sauce, Standard No. 2454.
National organization of Iran standard, microbial tests of mayonnaise sauce, Standard No. 2946.
National organization of Iran standard, microbial tests of mayonnaise sauce, Standard No. 2965.
National organization of Iran standard, microbial tests of mayonnaise sauce, Standard No. 5272.
Niknia, S. (2010). Application of local hydroclloids as stabilizer in formulation of mayonnaise sauce and consideration of their physical, sensory and rheological features. MSc dissertation, Ferdowsi University, Mashhad.
Nikzadeh, V., Tehrani, M. M. & Saadatmand-Tarzjan, M. (2012). Optimization of low-cholesterol–low-fat mayonnaise formulation: Effect of using soy milk and some stabilizer by a mixture design approach. Food Hydrocolloids, 28(2), 344-352.
Tolouee, A., Mortazavi, A., Alami, M. & Sadeghi, A. (2010). Physicochemical, texture and sensory features of low-fat mayonnaise sauce including inulin and pectin. Scientific and research Journal of Nutrition Technology, 3(1), 35-42.
Zaouadi, N., Cheknane, B., Hadj-Sadok, A., Canselier, J. P. & Hadj Ziane, A. (2015). Formulation and optimization by experimental design of low-fat mayonnaise based on soy lecithin and whey. Journal of Dispersion Science and Technology, 36(1), 94-102.