The objectives of this work were to verify the capability of Staphylococcus aureus of forming bio-film on stainless steel and glass surfaces; to evaluate the efficiency of sodium dichloroisocyanurate, hydrogen peroxide and peracetic acid in inactivating Staphylococcus aureus cells adhered onto these surfaces; and to visualize biofilm development by scanning electron microscopy before and after sanitizer treatment. The surfaces studied consisted of 10x20mm chips immersed in Petri dishes containing BHI broth inoculated with S. aureus ATCC 25923. Biofilm formation was observed after 15-day incubation, when the cells were removed using the swab technique, followed by Baird Parker agar plating. Also, the efficiency of the chemical sanitizers on the chip surfaces was tested and the non-removed cells were counted on the Baird-Parker agar. After biofilm formation and use of sanitizers, the chips were respectively observed by scanning electronic microscopy following a pre-existing protocol. The obtained results showed biofilm formation on both surfaces, with bacterial count in the order of 10 7 CFU/cm 2 on and 10 8 CFU/cm 2 on stainless steel and glass surfaces, respectively. Peracetic acid was the most efficient in removing adhered cells, presenting 5.26 and 4.5 decimal reduction for adhered cells on stainless steel and glass surfaces, respectively.
This study aimed to analyze the chemical composition and the IgG concentration of the colostrum, transitional milk, and mature milk of Santa Inês ewes as well as the transfer of passive immunity to lambs. Thirty-two pregnant ewes and 38 lambs were used. Ewes were milked immediately after lambing and at 12, 24, 36 h and 10 d postpartum. Colostrum was provided to the lambs at 40±15 min (mean±SE) after birth and then at 30-min intervals for obtaining the intake closest to 10% of body weight, and transitional milk was provided ad libitum. Blood from the lambs was collected 36 h after birth for measuring the serum concentrations of IgG, total protein, albumin, and gamma-globulin. The production was lower in primiparous than in multiparous ewes with body condition score (BCS)<2.75, but did not differ between primiparous and multiparous with BCS≥2.75 (interaction parity and BCS). The IgG concentration and fat, protein, lactose, and defatted dry extract percentages were not affected by the BCS of the ewe at lambing or by the parity. The total solids percentage in the colostrum was higher in ewes with BCS<2.75 (interaction BCS and time). The production and the protein, total solid, and defatted dry extract percentages showed quadratic behavior, the fat percentage decreased linearly, and the lactose percentage increased linearly with time postpartum. The IgG concentration in the colostrum was not correlated with the ewe's weight or BCS at the time of lambing. Moreover, the parity, the BCS, the ewe's type of gestation, and the lamb's sex did not influence the serum concentrations of IgG, total protein, albumin, and gamma-globulin in lambs. Adequate passive immune transfer (PIT) was observed in lambs for which the IgG intake was higher than 30 g. Failure in PIT was observed in 39.5% of lambs when considering a serum IgG concentration lower than 15 mg/mL and in 21% when considering a serum total protein concentration lower than 45 mg/mL. The mean apparent efficiency of absorption was 38.10%, with values between 0.02% and 98.80%. The serum IgG concentration was correlated with the total protein concentration (according to the enzymatic colorimetric method), the gamma-globulin concentration, and the absorption efficiency. The extreme variation on apparent efficiency of absorption may have an effect on the success of PIT. Lambs should consume at least 30 g of IgG in the first 24 h of life to ensure adequate PIT.
For a sweetener to successfully replace sucrose in food formulations, studies must first determine the necessary concentration of the sweetener to be used and its equivalent sweetness to sucrose. In this study, we verified both the equivalent sweetness and the magnitude of sweetness of processed cheese sweetened with different sweeteners and combinations of sweeteners. A total of four formulations were evaluated: sucralose, sucralose/acesulfame‐K (4:1), thaumatin/sucralose (2:1) and cyclamate/saccharin (1:1). First, the sweetness was determined using the ideal scale. Next, we determined the equivalent sweetness compared to sucrose (considered to be ideal in terms of sweetness) for each sweetener studied and evaluated its sweetness through the magnitude estimation method. The concentration of sucrose considered ideal in strawberry petit suisse was 17%. To promote a sweetness equivalent to the ideal (17% sucrose) sucralose, sucralose/acesulfame‐K (4:1), thaumatin/sucralose (2:1) and cyclamate/saccharin (1:1) sweeteners should be added to processed cheese at concentrations of 0.065%, 0.066%, 0.108% and 0.349%, respectively. PRACTICAL APLICATIONS The purpose of this work is to study the use of sweeteners, including thaumatin in petit suisse. The study of sweeteners in this product is important because currently consumers yearn for more healthy products and the fact of not having many studies related to this product. Therefore, this work supports the development of a new product, with more consumer desires and contributing to the competitiveness of the market.
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