Katarzyna Szajnar scite author profile

The effect of polyols (xylitol, erythritol, maltitol and isomalt) on physical and sensory properties of probiotic ice cream, as well as the survival of Bifidobacterium BB‐12 during freezing over 28 days of frozen storage, was investigated. The control sample of ice cream, sweetened with sugar, showed a lower pH and higher overrun than those sweetened with polyols. The viable bifidobacteria counts remained above 8 log cfu/g in all samples. The amount of erythritol added was not enough to obtain a similar sweetness as in control, but too high to get an ice cream with good textural properties.

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Organic magnesium salts fortification in fermented goat’s milk

Znamirowska

Szajnar

Pawlos

2019

International Journal of Food Properties

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The aim of this study was the production of a functional goat's milk product fortified with organic magnesium salts and fermented by Bifidobacterium Bb-12. The best stimulator of probiotic bacteria growth was magnesium citrate. Fermented milk with citrate addition had a similar L*a*b* color parameters in comparison to the control milk sample. The addition of magnesium pidolate significantly favorably increased the hardness of the fermented milk; however, the fortification with magnesium lactate and citrate decreased the hardness. Moreover, fortification with magnesium citrate reduced the intensity of goaty taste and odor.

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Sensory and textural properties of fermented milk with viability of Lactobacillus rhamnosus and Bifidobacterium animalis ssp. lactis Bb-12 and increased calcium concentration

Szajnar

Znamirowska

Kuźniar

2020

International Journal of Food Properties

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The Effect of the Addition of Chokeberry Fiber on the Quality of Sheep’s Milk Fermented by Lactobacillus rhamnosus and Lactobacillus acidophilus

Szajnar

Pawlos

Znamirowska

2021

International Journal of Food Science

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The global market for sheep’s milk and its products is increasing due to higher demand for cheese and traditional dairy products, and as a novelty, sheep’s milk is an ingredient in infant formulas and nutraceuticals. The aim of this study was to determine the properties of fermented sheep’s milk, which combines probiotic benefits with increased dietary fiber content. The influence of the applied dose of chokeberry fiber on the growth of living cells of Lactobacillus acidophilus and Lactobacillus rhamnosus in fermented sheep’s milk was also evaluated. Sheep milk with the addition of 0% (control sample), 1.5%, and 3.0% chokeberry fiber was fermented by two different probiotic monocultures L. acidophilus and L. rhamnosus. In the fermented milk, pH value, syneresis (%), color, and texture were determined. Furthermore, the microbiological analysis and an organoleptic evaluation were performed. With the increasing dose of chokeberry fiber, the pH value decreased already before the fermentation process. After fermentation, the milk’s pH values with fiber were still lower than those in the control sample. Presumably, more acidic metabolites were produced by L. acidophilus, causing a more intense reduction of the pH value than L. rhamnosus both in control milk and in milk with the addition of fiber. The addition of chokeberry fiber affected the stimulation of the growth of both types of bacteria. In the milk sample without fiber addition, a more significant number of viable cells were counted for L. acidophilus by 0.5 log CFU g-1 more than the milk fermented with L. rhamnosus. Furthermore, in milk fermented by L. acidophilus with 1.5% chokeberry fiber (LA1), the number of viable bacterial cells was higher than that in milk fermented by L. rhamnosus with the same addition of fiber (LR1). However, in sample LA3, the number of viable bacterial cells was lower than that in sample LR3. Tested fermented sheep milk met the Recommendation of the International Dairy Federation’s requirements regarding the number of live bacterial cells for dairy probiotics. The addition of chokeberry fiber increased syneresis in each fermented milk group, regardless of the bacteria used for fermentation. Moreover, the use of fiber caused a significant reduction in brightness L ∗ , an increase of red color, and a decrease of yellow color. Milk fermented with L. acidophilus was characterized by a harder gel, compared to their analogues fermented with L. rhamnosus. The addition of fiber intensified the sour taste and the taste of the additive in both types of fermented sheep milk.

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Probiotic Fermented Milk with Collagen

Znamirowska

Szajnar

Pawlos

2020

Dairy

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The aim of this study was to assess the possibility of using collagen protein hydrolysate in the production of milk fermented by Bifidobacterium animalis ssp. lactis Bb-12 and Lactobacillusrhamnosus. Physicochemical and organoleptic properties were studied and microbiological analysis of fermented milk was performed on days 1 and 21 of storage. Milk with the addition of 3% collagen protein hydrolysate was pasteurized (85 °C/30 min), divided into two groups, cooled to 37 °C and inoculated: the first group with Bifidobacteriumanimalis ssp. lactis Bb-12, second with Lactobacillus rhamnosus. Incubation was carried out at 37 °C/10 h. After 21 days of refrigerated storage, the pH value decreased in all analyzed milk samples. Collagen protein hydrolysate was a good milk additive to increase gel hardness and reduce syneresis. Moreover, its addition did not change the taste and odour of milk fermented with the use of Bifidobacterium Bb-12 and Lactobacillus rhamnosus. Collagen protein hydrolysate favourably stimulated the survival of Bifidobacterium Bb-12 during 21 days of storage. After 21 days of cold storage in milk with collagen, the number of Lactobacillus rhamnosus cells was reduced by 0.11 log cfu g−1.

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