Development and Characterization of Sustainable Antimicrobial Films Incorporated with Natamycin and Cellulose Nanocrystals for Cheese Preservation

M. D. Sousa, Vânia Miria C. Clemente, Rosilene Maria de S. Santos, M. Oliveira, José Osvaldo Ramos Silva, Laís Fernanda Batista, C. Marques, A. Souza, E. Medeiros, N. Soares
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引用次数: 1

Abstract

Environmental pollution and food safety are both issues of global concern. In this sense, sustainable and antimicrobial nanocomposites based on cellulose/poly (vinyl alcohol) blend incorporated with natamycin and cellulose nanocrystals (CNC) were manufactured and characterized. The developed films were evaluated according to their mechanical and optical properties, and their barrier to oxygen and water vapor permeation. The antimycotic activity was evaluated in vitro against fungi and yeasts. The film’s potential to act as an active packaging for Minas cheese preservation was also assessed. The incorporation of CNC increased the films’ tensile strength; however, it did not influence the barrier properties to water vapor (4.12 × 10−7 g·cm.m−1·h−1·Pa−1) and oxygen (3.64 × 10−13 g·cm·m−1·h−1·Pa−1). The incorporation of natamycin, on the other hand, resulted in films that were more opaque (around 24%) and of a yellowish color. The active nanocomposites developed showed antimicrobial effects against all analyzed fungi and yeasts (approximately 35 mm of inhibition zone) and were able to control the growth of S. cerevisiae in cheese, reducing a log cycle until the 12th day of storage. Since they performed well in vitro and on food, it was concluded that the films showed potential to be applied in Minas cheese preservation.
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纳他霉素和纤维素纳米晶复合抗菌膜的制备与表征
环境污染和食品安全都是全球关注的问题。在这种意义上,基于纤维素/聚乙烯醇共混物与纳他霉素和纤维素纳米晶体(CNC)的可持续和抗菌纳米复合材料被制造和表征。根据显影膜的力学性能、光学性能、阻氧性和水蒸气渗透性对显影膜进行了评价。体外对真菌和酵母进行了抑菌活性评价。还评估了该薄膜作为米纳斯奶酪保存的活性包装的潜力。CNC的加入提高了薄膜的抗拉强度;然而,它对水蒸气(4.12 × 10−7 g·cm.m−1·h−1·Pa−1)和氧气(3.64 × 10−13 g·cm·m−1·h−1·Pa−1)的阻隔性能没有影响。另一方面,纳他霉素的掺入使胶片更不透明(约24%),颜色偏黄。所开发的活性纳米复合材料对所分析的所有真菌和酵母(约35 mm的抑制区)都有抗菌作用,并且能够控制酿酒酵母在奶酪中的生长,减少1个对数周期,直到储存第12天。由于该膜在体外和食品上均表现良好,因此具有应用于米纳斯奶酪保鲜的潜力。
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