State of the Art of Antimicrobial Edible Coatings for Food Packaging Applications

Valdés, Arantzazu; Ramos, Marina; Beltrán, Ana M.; Jiménez, Alfonso; Garrigós, María Carmen

doi:10.3390/coatings7040056

Cited by 194 publications

(139 citation statements)

References 123 publications

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“…Natural polymers are a suitable alternative source for synthetic plastics which can be used to develop food packaging industry because of their biodegradability (Caetano, Hessel, Tondo, Flores, & Cladera‐olivera, ).In recent years, different techniques, such as application of films and edible coatings, have been used in improving the keeping quality of food (Sandoval et al, ). Edible coatings provide a semipermeable barrier to reduce gas exchange and moisture transfer (Xu et al, ) which prevent lipid oxidation, food spoilage and microbial contamination (Valdes, Ramos, Beltran, Jimenez, & Garrigos, ). The constituent biopolymers of films and edible coatings include proteins, polysaccharides (carbohydrates and gums), lipids, and their combination with plasticizers and other additives (Yildiz & Yangilar, ).…”

Section: Introductionmentioning

confidence: 99%

The effect of Guar and Tragacanth gums as edible coatings in Cheddar cheese during ripening

Pourmolaie

Asl

Ahmadi

et al. 2018

Journal of Food Safety

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The aim of this study was to evaluate a Guar/Tragacanth gum‐based edible coating used on Cheddar cheese during ripening for 90 days. Five samples of Cheddar cheese blocks were coated by different coating materials in triplicate as following: C, coated with polyvinyl acetate as control, GC, coated with 1% Guar gum and TG1, TG2, and TG3, coated with 0.75, 1, and 1.25% Tragacanth gum, respectively. All samples were kept at 8 ± 2 °C for 90 days. The results showed that total mesophilic aerobic bacteria counts were altered under the effect of edible coating materials (p < .01). The moisture and protein contents of the samples decreased and increased during ripening, respectively (p < .01). pH, acidity, fat in dry matter, tyrosine, and tryptophan contents of samples also significantly affected with edible coatings (p < .01). The free fatty acid composition of samples affected by all edible coatings. Trichloroacetic acid soluble nitrogen as a percent of total nitrogen, lipolysis, and sensory evaluation of samples were not significantly different (p > .01). Practical applications The coating of Cheddar cheese by edible coatings (Guar/Tragacanth gum) compared to commercial coating (polyvinyl acetate), in addition to easy use and reduction of environmental pollution, improved the qualitative characteristics of this type of cheese. Therefore, these edible coatings can be used as new coatings for packaging of Cheddar cheese.

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Section: Introductionmentioning

confidence: 99%

The effect of Guar and Tragacanth gums as edible coatings in Cheddar cheese during ripening

Pourmolaie

Asl

Ahmadi

et al. 2018

Journal of Food Safety

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“…Edible inks are often in the powder or paste state at room temperature or melting temperature . The most common edible inks are chocolate, oils, gelatin, paste, mash, mashed potatoes, cream, sugar, cheese, and etc . In addition to the traditional food ingredients mentioned above, edible inks are also produced from some high‐protein seafood and insect species .…”

Section: Introductionmentioning

confidence: 99%

“…13,14 The most common edible inks are chocolate, oils, gelatin, paste, mash, mashed potatoes, cream, sugar, cheese, and etc. 15,16 In addition to the traditional food ingredients mentioned above, edible inks are also produced from some high-protein seafood and insect species. 17 Ink is made using nature-compatible binders such as carboxymethyl cellulose (CMC), starch derivatives, PVA, propanediol, maltose, gum arabic, sucrose, chitosan, and many resin derivatives.…”

Section: Introductionmentioning

confidence: 99%

Natural ink production and printability studies for smart food packaging

Ozcan

Kandırmaz

2020

Color Research & Application

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Versatile smart packages provide information on the freshness of the content and help protect the content from microorganisms. In this sense, in this study both natural antimicrobial properties and pH sensitive natural dyes were obtained from red beet. Inks were prepared and printed using this dye and their suitability for smart packaging was investigated. For this purpose, red beet was cut into small sizes and mixed separately in ethanol and water (1:2) at 200 rpm. The betaine dye was taken up in solvent. These solvents were removed with evaporator and precipitated with centrifugation and dried in a vacuum oven. The chemical structure of the obtained dye was illuminated by Attenuated Total Reflection‐Fourier Transform Infrared Spectroscopy (ATR‐FTIR). The color character was determined by UV spectroscopy. Pink colored natural ink was produced by using ink varnish with carboxymethyl cellulose polymer and solid dye. Screen printing was made with this ink and the color, gloss, and lightfastness characters of prints were examined. Antimicrobial effects of the obtained prints were measured against Staphylococcus aureus and Escherichia coli. Mordanting studies were performed with (KAl[SO4]2.12H2O) and change in color character was measured. The prints produced using the red beet extract have a yellow‐orange color in the basic state; in acid cases it was determined to have a pink‐purple color. In addition, it has been found that the ink prints obtained from red beet have antimicrobial properties against bacteria. Results prove that produced samples have good antimicrobial, pH indicator, and printability properties. This colorant can be used in smart food packaging.

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“…Polysaccharides have been widely studied and used in the food industry as antimicrobial coatings for food packaging including fish and meat products as well as fruits and vegetables (Sánchez-Ortega et al, 2014;Valdés et al, 2017). Alginates used in coatings with sodium lactate (2.4%) and sodium diacetate (0.25%) suppressed the growth of Listeria monocytogenes on cold-smoked salmon slices and fillets during 30 days of storage at 4°C (Neetoo et al, 2010).…”

Section: Mite Reproduction Assaymentioning

confidence: 99%

Mite Control and Sensory Evaluations of Dry-Cured Hams with Food-Grade Coatings

Campbell

Zhao²,

Zhang

et al. 2017

Meat and Muscle Biology

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The ham mite, Tyrophagus putrescentiae (Schrank; Sarcoptiformes: Acaridae), is the predominant pest of dry-cured pork during aging. This research was conducted 1) to determine the minimal concentrations of propylene glycol necessary for food grade coatings to control mites; and 2) to determine if sensory differences could be detected in hams that were treated with food grade coatings in commercial facilities using difference from control sensory tests. Ham cubes coated with either xanthan gum + 15% propylene glycol or propylene glycol alginate + carrageenan + 7.5% propylene glycol were the lowest propylene glycol concentrations that were effective (P < 0.05) at controlling mite infestations under laboratory conditions. Whole hams from commercial plants that were dipped with coatings were slightly different (P < 0.05) from the non-dipped control hams with respect to flavor, texture and moistness in the first trial. However, hams sprayed with coatings, a lower-cost application than dipping, did not cause sensory differences (P > 0.05) when compared to the control with respect to flavor, texture, moistness, and weight loss in trial 2. This research indicated that dry-cured ham processors could potentially spray these coatings on dry-cured hams during aging to control mite infestations in their plants without negatively impacting the sensory quality of the hams.

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State of the Art of Antimicrobial Edible Coatings for Food Packaging Applications

Cited by 194 publications

References 123 publications

The effect of Guar and Tragacanth gums as edible coatings in Cheddar cheese during ripening

The effect of Guar and Tragacanth gums as edible coatings in Cheddar cheese during ripening

Natural ink production and printability studies for smart food packaging

Mite Control and Sensory Evaluations of Dry-Cured Hams with Food-Grade Coatings

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