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Edible polymer film for meat packaging, deliciously edible food and beverage packaging

Edible polymer film for meat packaging, deliciously edible food and beverage packaging

29-Aug-16

Increased use of synthetic packaging films has led to ecological problems due to their failure to break down in the environment, and consumers are demanding that food-packaging materials be made of bio-based materials that are biodegradable and recyclable. Because consumers want packaging materials to be ecologically friendly and biodegradable, novel food-grade packaging materials and/or technologies are being developed to meet these new trends, such as the use of biopolymers from agricultural and marine raw-material sources.
Antimicrobial agents incorporated into edible films applied to foods to seal in flavor, freshness and color can improve the microbiological safety of meats, according to researchers in Penn State's College of Agricultural Sciences. In the study, which was published in Journal of Food Safety, the researchers demonstrated the effectiveness of pullulan films containing antimicrobial sakacin A to control Listeria monocytogenes growth.
Phys.org reports that the research team; which included Catherine Cutter, associate professor of food science, John Floros, professor and head of food science, and Valentina Trinetta, a visiting scholar from the University of Milan, Italy; also confirmed the feasibility of using active pullulan films to deliver a bacteriocin directly to a food surface. Sakacin A is a bacteriocin produced by a strain of Lactobacillus. "It's a naturally occurring antimicrobial produced by organisms associated with fresh meats," said Cutter, the lead investigator. The compounds are created during fermentation processes, and when applied to meat, they restrain the growth of Listeria monocytogenes. "Controlled release of such agents from packaging films could inhibit the growth of target microorganisms over time. We think edible films enhanced with these bacteriocins could be placed between slices of pre-sliced deli meats to give the product extended protection against pathogens."
Pullulan film is a biopolymer, polysaccharide film produced by the fungal organism Aureobasidium pullulans. It is a colorless, tasteless film that is resistant to oil and is largely impermeable to oxygen. "Pullulan films require less antimicrobial, demonstrate longer antimicrobial activity and allow for controlled migration of the microbial molecule from film to the food matrix, as compared with the direct addition of sakacin A to ready-to-eat meat products" said Cutter. This microbial polysaccharide has not previously been exploited as a delivery system for bacteriocins, according to Cutter. The aim of the Penn State study was to evaluate the effectiveness of sakacin A against strains of Listeria monocytogenes that have caused foodborne outbreaks and to study the efficacy of a pullulan film containing sakacin A to control the growth of the pathogen in turkey deli meat. Cutter adds, "The incorporation and slow release of antimicrobial agents in packaging materials may provide a means of extending the bacterial lag phase, reducing microorganism growth rate and extending the shelf life of foods. Bacteriocins are compounds that can be used as a means of bio preservation."

The researchers found that when experimentally inoculated surfaces of turkey breast were treated with pullulan films, Listeria monocytogenes populations were reduced dramatically after three weeks under refrigerated storage. These results demonstrate the possibility of using sakacin A-containing pullulan film to inhibit or reduce the pathogen on the surfaces of ready-to-eat foods.
"This packaging material has some really neat properties," Cutter said. "It is nearly as strong as plastic now used for meat packaging, and it is completely edible. It won't necessarily replace the material used in vacuum packaging meat now, but it maintains the integrity of product and has the potential to improve shelf life. "As soon as the pullulan film contacts a moist surface such as meat, it meshes right into the surface, and as it dissolves, it releases the antimicrobial." The researchers chose to focus on the foodborne pathogen Listeria monocytogenes because it represents an important worldwide public-health problem. Foods considered at high-risk for the pathogen include ready-to-eat foods and products that require long-term refrigerated storage. The U.S. Department of Agriculture implemented a "zero-tolerance" policy for this pathogen in 1989. "The ubiquitous nature of the bacterium, its ability to grow in foods at refrigerated temperatures and difficulty in detecting it in food-processing establishments has led researchers to focus their attention on novel methods of prevention," Cutter explained. "Most listeriosis outbreaks appear to be caused by a small number of Listeria monocytogenes isolates, also referred to as epidemic clones.
"This packaging technology could play a role in extending the shelf life of ready-to-eat foods and reduce the risk from pathogens," Cutter said.

WikiCell Designs Inc., a Cambridge, Mass. and Paris, France-based company develops deliciously edible forms of food and beverage packaging. WikiCells imitate such natural packaging by enclosing food and liquid in an edible membrane. This membrane, which is comprised of a charged polymer and food particles, is in turn protected by a hard shell which can be broken away much like that of an egg.
Like the coconut or orange, the WikiCell, an edible form of packaging invented by Harvard professor David Edwards, provides a double layer of protection around the liquid, foam or solid it holds. You can think of the first layer, a soft skin, like a raisin skin. It's made of three main components: tiny natural food particles, like chocolate, fruit, nuts or seeds; a nutritive ion-like calcium; and a natural molecule like chitosan (which comes from the body) or alginate (which comes from algae). When you mix these three things together they form an electrostatic gel that keeps water inside the food or drink. The second layer, a protective shell around the skin, is like the egg-carton packaging. Depending on the kind of WikiCell and how it reaches the consumer, that shell may be completely edible (in which case you would wash it like an apple) or completely biodegradable (in which which case you can peel it off and throw it away). The edible shell would be made of isomalt (a kind of sweetener) and the biodegradable shell would be made of baggase (what remains when you remove sugar from sugar cane) or tapioca. Together, they form a gel-like material that can hold everything from cocktails to yogurt. It can be cleaned with running water and it doesn't dissolve.
WikiCell Designs, which has demonstrated WikiCell ice creams, yoghurts, cheeses, and a variety of drinks including coffee, cocktails and juices. This soft skin may be comprised primarily of small particles of chocolate, dried fruit, nuts, seeds, or many other natural substances with delicious taste and often useful nutrients. Inside the skin may be liquid fruit juice, or thick pudding."

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