Moradkhani Fatemeh, Sekhavatizadeh Seyed Saeed, Marhamatizadeh Mohammad Hosein, Ghasemi Maryam
Faculty of Veterinary Medicine, Kazeroon Branch Islamic Azad University Kazerun Iran.
Department of Food Science and Technology Faculty of Fars Agricultural and Natural Resources Research and Education Center, AREEO Shiraz Fars Iran.
Food Sci Nutr. 2025 Apr 24;13(4):e70175. doi: 10.1002/fsn3.70175. eCollection 2025 Apr.
The aim of this research was to examine the occurrence of aflatoxin M1 (AFM1) in milk collected from Shiraz, Iran. Moreover, the capacity of the four probiotic species to reduce the concentration of AFM1 was assessed. For this research, 10 raw milk samples were collected randomly in Shiraz, Iran, in January 2023. The analyses were performed using an HPLC system equipped with a fluorescence detector. Then, AFM1 artificially contaminated probiotic drink milk (PDM) containing (LP), (LRE), (LR) (LABs) alone or in combination, fermented dairy drink containing (FDD-LA), and yogurt were produced. The pH, total viable number of probiotics (TVNP), and rheology of the samples were measured. In all milk samples, the concentrations of AFM1 did not exceed the maximum threshold established by Iranian national standards. In the artificially spiked samples, the maximal reduction in AFM1 was noted in PDM (96.5%), PDM (95.3%), yogurt (95.2%), and PDM (93.8%). FDD-LA revealed the lowest reduction in AFM1 (75.9%). The TVNP increased during processing, while the pH decreased in all the samples. AFM1 did not have any negative effect on TVNP or pH. The SEM images revealed that the AFM1-treated samples had a less compact structure and more cavities. Similarly, the viscosity of the control sample without AFM1 was greater than that of the AFM1-supplemented samples. The results showed that LP, LRE, LR, LA, and yogurt starter cultures have a strong ability to decrease AFM1 in milk. However, their effect on the textural properties of the product is not favorable.
本研究的目的是检测从伊朗设拉子采集的牛奶中黄曲霉毒素M1(AFM1)的存在情况。此外,还评估了四种益生菌降低AFM1浓度的能力。本研究于2023年1月在伊朗设拉子随机采集了10份生鲜乳样本。使用配备荧光检测器的高效液相色谱系统进行分析。然后,制备了分别单独或组合含有嗜酸乳杆菌(LP)、卷曲乳杆菌(LRE)、鼠李糖乳杆菌(LR)(乳酸菌)的AFM1人工污染益生菌饮料奶(PDM)、含有嗜酸乳杆菌(FDD-LA)的发酵乳饮料以及酸奶。测量了样本的pH值、益生菌总活菌数(TVNP)和流变学特性。在所有牛奶样本中,AFM1的浓度均未超过伊朗国家标准规定的最大阈值。在人工添加样本中,PDM(96.5%)、PDM(95.3%)、酸奶(95.2%)和PDM(93.8%)中AFM1的降低幅度最大。FDD-LA中AFM1的降低幅度最小(75.9%)。加工过程中TVNP增加,而所有样本的pH值均下降。AFM1对TVNP或pH值没有任何负面影响。扫描电子显微镜图像显示,经AFM1处理的样本结构较疏松,空洞较多。同样,不含AFM1的对照样本的粘度大于添加AFM1的样本。结果表明,LP、LRE、LR、LA和酸奶发酵剂对降低牛奶中的AFM1具有很强的能力。然而,它们对产品质地特性的影响并不理想。
