Noteworthy progress in the area of food packaging has recently introduced in order to inhibit or prevent microbial growth as well as to keep the products from further microbial deterioration. Among the food packaging techniques, active packaging, particularity antimicrobial active packaging, has attracted much attention, considering the diverse materials used, the methods of application in the variety of food products to be protected. Direct and indirect techniques can be utilized to apply antimicrobial compounds into food packaging materials. The increasing importance of the application of antimicrobial packaging has led to in a better knowledge of materials, and the factors affecting the effectiveness of antimicrobial systems. This article is a review of the antimicrobial agents, the materials used for delivering them, antimicrobial migrating and non-migrating systems and the effects of antimicrobial agents on packaging properties. In general, the use of antimicrobial active packaging extends the stability of food products during storage and distribution. However, many challenges of the new approaches of antimicrobial active packaging still remain including the controlled release of antimicrobial agents, and the development of packaging materials (mainly the bio-based materials) with adequate barrier properties, transparency, tensile strength and other required characteristics.
Lactic acid is an organic compound produced via fermentation by different microorganisms that are able to use different carbohydrate sources. Lactic acid bacteria are the main bacteria used to produce lactic acid and among these, Lactobacillus spp. have been showing interesting fermentation capacities. The use of Bacillus spp. revealed good possibilities to reduce the fermentative costs. Interestingly, lactic acid high productivity was achieved by Corynebacterium glutamicum and E. coli, mainly after engineering genetic modification. Fungi, like Rhizopus spp. can metabolize different renewable carbon resources, with advantageously amylolytic properties to produce lactic acid. Additionally, yeasts can tolerate environmental restrictions (for example acidic conditions), being the wildtype low lactic acid producers that have been improved by genetic manipulation. Microalgae and cyanobacteria, as photosynthetic microorganisms can be an alternative lactic acid producer without carbohydrate feed costs. For lactic acid production, it is necessary to have substrates in the fermentation medium. Different carbohydrate sources can be used, from plant waste as molasses, starchy, lignocellulosic materials as agricultural and forestry residues. Dairy waste also can be used by the addition of supplementary components with a nitrogen source.
In this study, the probiotic potential of Lactobacillus strains isolated from traditional Kurdish cheese was investigated. The Lactobacillus strains were examined for resistance to gastric acidity and bile toxicity, antimicrobial activities, autoaggregation, coaggregation, hydrophobicity, adhesion to Caco-2 cells, and antibiotic susceptibility. The results showed that all strains tested tolerate acid gastric conditions (pH 2.0 and 3.0), and all of them were bile resistant (at 0.3 and 1% concentration). Although no antibacterial activity was detected in vitro assay for the treated (neutralized to pH 6.5 and treated with catalase) cell-free culture supernatant (CFCS) of strains, untreated CFCS showed strong antagonistic activity against two known pathogens bacteria. All strains exhibited a strong autoaggregating phenotype and manifested a high degree of coaggregation with pathogens. On the other hand, majority of studied strains were found sensitive to different antibiotics, such as ampicillin, penicillin, ciprofloxacin, chloramphenicol, erythromycin, rifampicin, and tetracycline, and were resistant to vancomycin and streptomycin. Finally, isolated strains showed good hydrophobicity and adherence to Caco-2 cell line, so they could be exploited for food manufacture.
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