Effects of fat substitute on survived probiotic bacteria in yoghurt ice cream
Abstract
Probiotic is a micro organism that is useful for human bodies and can
help creating balances for human intestinal system. The objective of this research is to compare amounts
of fat substitutes supplied in the industries in order to determine their ability to encapsulate Probiotic
microbes in the production of yoghurt ice cream to ensure maximum survived Probiotic microbes. In this
research, two fat substitutes, Purity SM 100 and CRYSTAL texTM 648, were used to substitute skim
milk in the standard formulas in order to study numbers of survived Probiotic microbes and to test the
sensory acceptance. For the sensory acceptance, it was found that the Probiotic yoghurt ice cream
containing 20% Purity SM100 is acceptable at the maximum significance (p ≤ 0.05) because its flavor
and taste was better than other samples as well as the best overrun with statistical significant differences
(p ≤ 0.05). However, by addition of both fat substitutes at different concentrations, pH values of
Probiotic yoghurt ice cream products did not have statistical significant differences (p ≥ 0.05). When
Lactobacilluss acidophilus, Bifidobacterium, and Streptococcus thermophilus microbial starters were
added into the Probiotic yoghurt ice cream using both fat substitutes in place of skim milk at ratios of
10%, 15%, and 20%, respectively, under a storage condition of -20oC for 4 weeks, it was found that types
and amounts of fat substitutes affected the surviving rate of Probiotic microbes in the product with a
statistical significance (p ≤ 0.05). The addition of fat substitutes, Purity SM100 and CRYSTAL texTM
648, at all concentration levels made Probiotic microbes survive in the product, which illustrated that
both fat substitutes used in above experiments could encapsulate Probiotic microbe cells. The survived
Probiotic microbes were in the range of 108 – 109 CFU/ml in comparison to the Probiotic yoghurt ice
cream with the standard formula without the addition of fat substitutes that has survived Probiotic
microbes of only 106 CFU/ml.
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- Theses [217]