Production of a Potentially Probiotic Product for Animal Feed and Evaluation of Some of Its Probiotic Properties

Agregán, Rubén; González, Elisa Alonso; Mejuto, J. C.; Guerra, Nelson Pérez

doi:10.3390/ijms221810004

Cited by 7 publications

(4 citation statements)

References 46 publications

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“…The pH declined, stabilized, and increased slightly towards day 20. The findings correspond with those of other researchers who attributed such a shift in pH to the consumption of organic acids (lactic and acetic) by yeast present in the microbiota of such by-products [27]. The pH is an essential parameter in LBY preservation.…”

Section: Discussionsupporting

confidence: 91%

Impact of Storage Temperature on Microbial Diversity and Probiotic Effect of Liquid Brewers&#8217; Yeast

Alaru,

Shitandi,

Mahungu

et al. 2024

OJAS

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Using probiotics as animal feed additives instead of antibiotics is gaining momentum to avert adverse negative effects on human health. Liquid brewers' yeast (LBY) is an industrial by-product containing probiotic microorganisms and is also used as a protein supplement for dairy animals. Nevertheless, value chain actors' lack of appropriate handling practices compromises the by-products' quality and safety. This study aimed to determine the effect of variation in temperature on microbial diversity and probiotic effects during the storage time of LBY sampled from distributors and farmers from Githunguri sub-county of Kenya. The samples were stored at 20˚C, 25˚C and 30˚C, then tested on 0, 5, 10, 15 and 20 days. The study's parameters involved determining the pH levels, lactic acid bacteria (LAB), total coliform count (TCC), mould, and yeast in LBY. The rate (k) of the reaction kinetics model was used to extrapolate the expected probiotic shelf life. The LAB and yeast populations were reduced in a first-order reaction at all storage temperatures. The rate of reduction in the numbers of LAB reduced with an increase in temperature (k = −0.019 and −0.023) at 20˚C and 30˚C, respectively. Yeast's highest rate of growth reduction was 25˚C (k = −0.009) and least at 30˚C (k = −0.043). The minimum effective concentration for probiotics of 10 6 CFU/mL needed to observe the beneficial physiological impact on farm animals was achieved between 34.9 and 35.5 days at the tested storage temperatures. The study provides insight into the unexploited low-cost probiotic potential of LBY in dairy production. Conversely, handling practices and environmental microbial contamination along the value chain can compromise product quality and safety. There is a need to advocate its use in dairy for improved

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Section: Discussionsupporting

confidence: 91%

Impact of Storage Temperature on Microbial Diversity and Probiotic Effect of Liquid Brewers&#8217; Yeast

Alaru,

Shitandi,

Mahungu

et al. 2024

OJAS

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“…The OD values were converted to cell dry weight (CDW) from a standard curve (CDW vs OD) to quantify the free biomass released from the kefir grains into the culture medium. 19,77 Concentrations of glucose, fructose, ethanol, glycerol, lactic acid and acetic acid were quantified by a high-performance liquid chromatography (HPLC) system equipped with an ION-300 Organic Acids column (length 300 mm, internal diameter 7.8 mm) with a precolumn IONGUARD™ (polymeric guard column), both obtained from Tecknokroma S. Coop. C. Ltda, Barcelona, Spain.…”

Section: Methodsmentioning

confidence: 99%

“…For activation 77 , the kefir grains were separated from the coverage liquid (milk) by filtration through a plastic strainer, weighed (approximately 30.6 g, wet weight) and added to a 1 L Pyrex bottle containing 1 L pasteurized whole milk UHT. Subsequently, the bottle was covered with a cheesecloth and it was secured with a rubber band and incubated at room temperature away from direct sunlight, at room temperature at 150 rpm for 24 h. Then, the kefir grains were separated from the fermented milk under sterile conditions by filtration through a plastic strainer, washed with sterile distilled water and after the second activation in milk, the grains were used as the inoculum for the production of the kefir-like beverages.…”

Section: Kefir Grains Activation and Conservationmentioning

confidence: 99%

Chemical, Microbiological and Volatile Composition of Kefir-like Beverages Produced from Red Table Grape Juice in Repeated 24-h Fed-batch Subcultures

Bazán¹,

Río²,

Domínguez³

et al. 2021

Preprint

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The aim of this work was to study the production of kefir-like beverage by fed-batch fermentation of red table grape juice at initial pHs of 3.99 (fermentation A) and 5.99 (fermentation B) with kefir grains during four repeated 24-h fed-batch subcultures. However, all kefir-like beverages (KLB) were characterized by low alcoholic grade (≤ 3.6%, v/v) and lactic and acetic acid concentrations. The beverages obtained from fermentation B had lower concentrations of sugars and higher microbial counts than the KLB obtained in fermentation A. In addition, the KLB from fermentation B were the most aromatic and had the highest contents in alcohols, esters, aldehydes and organic acids compared to the non-fermented juice and KLB from fermentation A. These results indicate the possibility of obtaining red table grapes KLB with their own distinctive aromatic characteristics and a high content in probiotic viable cells, contributing to the valorization of this fruit.

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“…However, the bacterial counts of the three microbial groups by day 28 always surpassed the minimal number of probiotic cells needed to observe a probiotic effect on the host [101]. Additionally, it is expected that a high number of these cells can reach the intestine and colonize it, as it has been suggested that the food matrix (milk) can protect these cells against gastrointestinal conditions [101,104].…”

Section: Microbiological Stability Of the Beverages Obtained In The R...mentioning

confidence: 99%

Main Composition and Visual Appearance of Milk Kefir Beverages Obtained from Four Consecutive 24- and 48-h Batch Subcultures

Bazán Tantaleán,

Del-Río,

Cortés Diéguez

et al. 2024

Preprint

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Nowadays, there has been a significant rise in the consumption of kefir, a functional beverage touted for its perceived health benefits. To offer a high-quality beverage to consumers, it is imper-ative to scrutinize and fine-tune the fermentation process. This study seeks to investigate the im-pact of fermentation time and the number of subcultures on the physicochemical, microbiological, and volatile composition, as well as the visual appearance of kefir beverages obtained from four consecutive 24- or 48-h batch subcultures. All fermented beverages exhibited low lactose, ethanol and acids levels, with counts of viable probiotic lactic acid bacteria and yeast exceeding 106 colony forming units/mL. The four kefir beverages from the 48-h batch subcultures notably showed the lowest total concentrations of volatile compounds likely due to overfermentation and overacidifi-cation of the beverages. This caused separation of the whey and curd, along with the formation of large gas bubbles, negatively affecting the visual appearance of the products. These findings em-phasize the importance of fine-tuning the fermentation process to ensure the production of high-quality kefir beverages that align with consumer preferences. The four beverages from the 24-h batch subcultures exhibited high microbiological and physicochemical stability during stor-age at 4 °C for 28 days.

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Production of a Potentially Probiotic Product for Animal Feed and Evaluation of Some of Its Probiotic Properties

Cited by 7 publications

References 46 publications

Impact of Storage Temperature on Microbial Diversity and Probiotic Effect of Liquid Brewers&#8217; Yeast

Impact of Storage Temperature on Microbial Diversity and Probiotic Effect of Liquid Brewers&#8217; Yeast

Chemical, Microbiological and Volatile Composition of Kefir-like Beverages Produced from Red Table Grape Juice in Repeated 24-h Fed-batch Subcultures

Main Composition and Visual Appearance of Milk Kefir Beverages Obtained from Four Consecutive 24- and 48-h Batch Subcultures

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Production of a Potentially Probiotic Product for Animal Feed and Evaluation of Some of Its Probiotic Properties

Cited by 7 publications

References 46 publications

Impact of Storage Temperature on Microbial Diversity and Probiotic Effect of Liquid Brewers&amp;#8217; Yeast

Impact of Storage Temperature on Microbial Diversity and Probiotic Effect of Liquid Brewers&amp;#8217; Yeast

Chemical, Microbiological and Volatile Composition of Kefir-like Beverages Produced from Red Table Grape Juice in Repeated 24-h Fed-batch Subcultures

Main Composition and Visual Appearance of Milk Kefir Beverages Obtained from Four Consecutive 24- and 48-h Batch Subcultures

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Product

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Impact of Storage Temperature on Microbial Diversity and Probiotic Effect of Liquid Brewers’ Yeast

Impact of Storage Temperature on Microbial Diversity and Probiotic Effect of Liquid Brewers’ Yeast