Dynamics of 17β-estradiol under influence of technological operations during production of dairy products

IF 0.5 Q4 BIOLOGY Regulatory Mechanisms in Biosystems Pub Date : 2023-02-07 DOI:10.15421/022308
H. Kochetova, M. Kukhtyn, V. Salata, Y. Horiuk, L. Kladnytska, T. Matviishyn
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Abstract

Safety of milk can decline because of high concentrations of steroid hormones like 17β-estradiol, which is associated with the development of some oncological diseases and reproductive disorders. We studied the effects of thermal processing of raw milk and technologies of production of butter and yogurt on the concentration of 17β-estradiol. For this purpose, we determined the amount of 17β-estradiol in raw milk, after pasteurization under different regimes, boiling and during the production of butter and yogurt. Content of 17β-estradiol was determined using the method of immunoenzymatic analysis. We determined that low-temperature processing of milk at the temperature of 77.0 ± 1.0 °С for 1 min caused no changes in the structure of the estrogenic hormone 17β-estradiol, resulting in practically no changes in its amount in pasteurized milk. We determined that 17β-estradiol in milk is a temperature-stable hormone with no tendencies towards significant decrease when subject to high-temperature processing (85.0 ± 1.0 °С for 1 min) and during boiling, because the amount of the hormone decreased on average by 5%. Therefore, we may state that after pasteurization or sterilization, the concentration of 17β-estradiol in drinkable milk would not be significantly different from its initial amount in raw milk. We determined significant increase in 17β-estradiol in butter (3896.1 ± 67.5 pg/g), as compared with the concentration in raw milk (189.4 ± 12.5 pg/mL), and its insignificant content in buttermilk was insignificant (29.3 ± 1.8 pg/mL). The concentration of 17β-estradiol in milk decreased by 25% during 9-month storage at the temperature of –18 °С and by 20% at the temperature of –9 °С. This process can be applied to butter made from milk of cows at late stages of lactation, which contains high level of estrogen. We determined that the steroid hormone 17β-estradiol did not break down under the influence of dairy acid that accumulates as a result of lactic acid fermentation, both with the participation of mixed microflora of raw milk and pure lactic-acid bacteria of fermentation starter for yogurt. The prospects of the studies are the development of a safe maximum allowable level of 17β-estradiol in raw milk and methodological evaluation at a milk-processing factory.
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乳品生产过程中工艺操作对17β-雌二醇动态的影响
牛奶的安全性可能会下降,因为17β-雌二醇等类固醇激素浓度高,这与一些肿瘤学疾病和生殖障碍的发展有关。研究了生乳热处理工艺和黄油、酸奶生产工艺对17β-雌二醇浓度的影响。为此,我们测定了生乳中17β-雌二醇的含量,在不同的巴氏杀菌制度下,煮沸后以及在黄油和酸奶的生产过程中。采用免疫酶法测定17β-雌二醇的含量。我们确定,在77.0±1.0°С的温度下对牛奶进行1分钟的低温加工,不会导致雌激素17β-雌二醇的结构发生变化,从而导致巴氏灭菌牛奶中雌激素的含量几乎没有变化。我们确定,牛奶中的17β-雌二醇是一种温度稳定的激素,在高温处理(85.0±1.0°С持续1分钟)和煮沸过程中没有显著下降的趋势,因为激素的含量平均下降了5%。因此,我们可以说,经过巴氏杀菌或灭菌后,饮用奶中17β-雌二醇的浓度与生奶中的初始量没有显著差异。我们确定黄油中17β-雌二醇的浓度(3896.1±67.5 pg/g)与生乳中的浓度(189.4±12.5 pg/mL)相比显著增加,其在酪乳中的含量不显著(29.3±1.8 pg/mL)。在–18°С温度下储存9个月,乳中17β-雌二醇的浓度下降了25%,在–9°С温度时下降了20%。这一工艺可以应用于由泌乳后期的牛奶制成的黄油,其中含有高水平的雌激素。我们确定,类固醇激素17β-雌二醇在乳酸发酵产生的乳酸的影响下不会分解,无论是在生乳的混合菌群还是酸奶发酵剂的纯乳酸菌的参与下。这些研究的前景是开发原料奶中17β-雌二醇的安全最大允许水平,并在牛奶加工厂进行方法评估。
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
25
审稿时长
10 weeks
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