Potential application of natural phenolic antimicrobials and edible film technology against bacterial plant pathogens

Alkan, Derya; Yemenicioğlu, Ahmet

doi:10.1016/j.foodhyd.2015.10.025

Cited by 85 publications

(45 citation statements)

References 56 publications

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“…Various studies on the use of active films and edible coatings to deliver antimicrobial agents to the surface of a wide range of foods in contact (fruit, vegetables, and meat products) have been conducted . The delivery of phenolic compounds from edible coatings is mainly described as a sequence of material transfer movement starting with diffusion, followed by desorption from the film's or coating's surface, sorption of the compounds at the interface and finally sorption into the food . It has been acknowledged that the delivery rate of bioactive compounds from films or edible coatings to food is faster when the release is a consequence of their swelling or dissolution, which is conditioned by the nature of the food matrix in direct contact and the polymer matrix of film or coating .…”

Section: Uses Of Antimicrobial Plant Polyphenols In Foodsmentioning

confidence: 99%

“…Another potential advantage of edible coatings/packaging materials incorporating antimicrobial plant phenolics is their increased stability to oxidation in these polymeric matrices. Packaging materials made of edible biopolymers combined with natural antimicrobials are favorable for making foods safer and of higher quality . The association of antimicrobial agents with edible coatings has thus increasingly been considered a favorable approach to increase the shelf life and/or enhance the safety of perishable foods in recent decades.…”

Section: Uses Of Antimicrobial Plant Polyphenols In Foodsmentioning

confidence: 99%

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Plant antimicrobial polyphenols as potential natural food preservatives

et al. 2018

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These materials could be an interesting delivery system to improve the stability of phenolics in foods and to improve the shelf life of perishable foods. This review will thus provide an overview of current knowledge of the antimicrobial activity of phenolic-rich plant extracts and of the promises and limits of their exploitation for the preservation of perishable foods. © 2018 Society of Chemical Industry.

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Section: Uses Of Antimicrobial Plant Polyphenols In Foodsmentioning

confidence: 99%

Section: Uses Of Antimicrobial Plant Polyphenols In Foodsmentioning

confidence: 99%

Plant antimicrobial polyphenols as potential natural food preservatives

et al. 2018

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“…Phenolic compounds are important secondary plant metabolites that determine the sensory and nutritional qualities of fruits, vegetables, and other plant products. Phenolics have received attention in recent years because of their antioxidant [5], antimicrobial [6], antimelanogenesis [7], hepatoprotective [8] and anti-inflammatory [9] effects. Studies suggest that a large number of phenolic extracts from plants, including mulberry leaf [10], Pistachia lentiscus L. leaves from Algeria [11], Astilboides tabularis [12], mate tea [13], Korean sorghum [14], Pongamia pinnata Pierreseeds [15], and Pseuduvaria monticola bark [16], demonstrate anti-diabetic properties.…”

Section: Introductionmentioning

confidence: 99%

Anti-Diabetic Effects of Phenolic Extract from Rambutan Peels (Nephelium lappaceum) in High-Fat Diet and Streptozotocin-Induced Diabetic Mice

Guo

Sun

et al. 2017

Nutrients

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Recent studies have shown that rambutan peel phenolic (RPP) extract demonstrate high antioxidant and antiglycation activities in vitro and in vivo. This study further evaluated the anti-diabetic activity of RPP in a mouse model of Type II diabetes induced by streptozotocin combined with high-fat diet. Results showed that RPP increased the body weight and reduced the fasting blood glucose level of the diabetic mice. RPP significantly reduced the serum levels of total cholesterol, triglyceride, creatinine, and glycated serum protein in diabetic mice in a dose-dependent manner. Glycogen content in mice liver was recovered by RPP, which further increased the activity of superoxide dismutase and glutathione peroxidase and reduced lipid peroxidation in diabetic mice. Histological analysis showed that RPP effectively protected the tissue structure of the liver, kidney, and pancreas. In addition, RPP decreased the mesangial index and inhibited the expression of TGF-β in the kidney of diabetic mice.

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“…It aims on safety assurance, quality maintenance and extending the shelf life of the food products by killing or preventing the growth and entrance of spoilage and pathogenic microorganisms (Alkan and Yemenicioglu 2016). Broadly antimicrobial substances including enzymes, organic salts and their acids, macromolecules (chitosan), bacteriocins, natural extracts, essential oils (EOs), fungicides, metallic salts and nanomaterials, are common antimicrobial susbstances used in food packaging industry.…”

Section: Active Food Packagingmentioning

confidence: 99%

Transformation of food packaging from passive to innovative via nanotechnology: concepts and critiques

et al. 2016

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In recent decades, there is a global advancement in manufacturing industry due to increased applications of nanotechnology. Food industry also has been tremendously changing from passive packaging to innovative packaging, to cope with global trends, technological advancements, and consumer preferences. Active research is taking place in food industry and other scientific fields to develop innovative packages including smart, intelligent and active food packaging for more effective and efficient packaging materials with balanced environmental issues. However, in food industry the features behind smart packaging are narrowly defined to be distinguished from intelligent packaging as in other scientific fields, where smart materials are under critical investigations. This review presents some scientific concepts and features pertaining innovative food packaging. The review opens new research window in innovative food packaging to cover the existing disparities for further precise research and development of food packaging industry.

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Potential application of natural phenolic antimicrobials and edible film technology against bacterial plant pathogens

Cited by 85 publications

References 56 publications

Plant antimicrobial polyphenols as potential natural food preservatives

Plant antimicrobial polyphenols as potential natural food preservatives

Anti-Diabetic Effects of Phenolic Extract from Rambutan Peels (Nephelium lappaceum) in High-Fat Diet and Streptozotocin-Induced Diabetic Mice

Transformation of food packaging from passive to innovative via nanotechnology: concepts and critiques

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