THE USE OF STEVIA AND MONK FRUIT SWEETENERS FOR SUGAR REPLACEMENT IN GREEN TEA AGAR JELLIES
Abstract
This study aimed to develop healthy agar jellies with low-sugar content, linking to a decreased risk for heart attack, diabetes, and other chronic diseases. Two natural non-nutritive sweeteners, stevia and monk fruit were studied at 25%, 50%, 75%, and 100% sugar replacement based on the equivalent sucrose sweetness. The physical properties assessed on the total soluble solids, firmness, color, and syneresis. Still, the sensory attributes on color, taste, flavor, texture, and overall acceptability was evaluated by a 9-point hedonic scale. The more sugar replacement lowered the total soluble solids but increased the gel firmness (p<0.05) and the lightness (L*). The syneresis declined in reduced-sugar jellies with stevia and monk fruit against the whole sugar jellies. The stevia and monk fruit replacement affected agar jellies' taste and flavor attributes (p<0.05). Jellies with 50% and 75% sugar replacement, either stevia or monk fruit, were preferred over 25% and 100% replacement. The jelly with 50% stevia was the optimal formulation.
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Alais C, Linden G. 1991. Food Biochemistry. London: Ellis Horwood.
American Heart Association. 2021. How much sugar is too much? Retrieved on March 18, 2021 from https://www.heart.org/en/healthy-living/healthy-eating/eat-smart/sugar/how-much-sugar-is-too-much
AOAC, 1995. Official Methods of Analysis of The Assiciation of Official Agriculture Chemist 16th. Virginia, USA: The Association of Official Analytical Chemist, Inc.
Bajwa U, Mittal S. 2015. Quality characteristics of no added sugar ready to drink milk supplemented with mango pulp. Journal of Food Science and Technology 52: 2112-2120.
Cochran WG, Cox GM. 1992. Experimental
Designs, 2nd ed. New York: John Wiley and Sons.
Divoux T, Mao B, Snabre P. 2015. Syneresis
and delayed detachment in agar plates. Soft Matter 11: 3677-3685.
Dorohovic A, Goncharuk O, Matias D,
Kambulova J. 2018. Influence of sugars
on the formation of structural and
mechanical characteristics of agar.
Ukrainian Journal of Food Science 6: 20-31.
Gao J, Brenan MA, Mason SL, Brenan CS. 2016. Effect of sugar replacement with Stevianna and inulin on the texture and predictive glycaemic response of muffins. International Journal of Food Science and Technology 51: 1979-1987.
Goyal SK, Samsher, Goyal RK. 2010. Stevia (Stevia rebaudiana) a bio-sweetener: A review. International Journal of Food Sciences and Nutrition 61: 1-10.
Lau MH, Tang J, Paulson AT. 2000. Texture profile and turbidity of gellan/gelatin mixed gels. Food Research International 33: 665-671.
Li C, Li-Mei L, Feng S, Zhi-Min W, Hai-Ru H, Li D, Ting-Liang J. 2014. Chemistry and pharmacology of Siraitia grosvenorii: A review. Chinese Journal of Natural Medicines 12: 0089-0102.
Mordor intelligence, 2021. Sugar-free food
and beverage market – growth, trends, covid-19 impact, and forecasts (2021-2026). Retrieved on April 16, 2021 from https://www.mordorintelligence.com/industry-reports/sugar-free-food-and-beverage-market
Pandey AK, Chauhan OP. 2020. Monk fruit (Siraitia grosvenorii) - health aspects and food application. Pantnagar Journal of Research 17: 191-198.
Rocha IFO, Bolini HMA. 2015. Passion fruit
juice with different sweeteners: sensory
profile by descriptive analysis and
acceptance. Food Science & Nutrition 3:
-139.
Saha D, Bhattacharya S. 2010. Hydrocolloids as thickening and gelling agents in food: A critical review. Journal of Food Science and Technology 47: 587-597.
Somboon N, Karrila TT, Kaewmanee T, Karrila SJ. 2014. Properties of gels from mixed agar and fish gelatin. International Food Research Journal 21: 485-492.
Tey SL, Salleh NB, Henry J, Forde CG. 2017. Effects of aspartame-, monk fruit-, stevia-and sucrose-sweetened beverages on postprandial glucose, insulin and energy intake. International Journal of Obesity (London) 41: 450-457.
Vilela A, Matos S, Abraão AS, Lemos AM, Nunes FM. 2015. Sucrose replacement by sweeteners in strawberry, raspberry, and cherry jams: Effect on the textural characteristics and sensorial profile – A Chemometric approach. Journal of Food Processing, 14 p. https://doi.org/10.1155/2015/74974.
DOI: http://dx.doi.org/10.33512/fsj.v3i2.12404
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