Category Archives: Active Packagin

Research – Say Goodbye to Spoiled Food With New Smart Packaging

Posted on June 20, 2024 by | Leave a comment

Scitech Daily

Researchers at McMaster University have created smart packaging that detects spoilage, potentially reducing global costs by minimizing waste and illness. Despite its benefits, adoption faces hurdles due to cost concerns and regulatory challenges.

A team of researchers from McMaster University has invented a suite of tests for food packages that can indicate if the contents are contaminated, aiming to reduce food waste and prevent illnesses. They are now focusing on integrating this smart packaging technology into commercial products by engaging with producers and regulators.

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Posted in Active Packagin, Food Microbiology Research, Food Spoilage, Microbial Spoilage, Research

Research – Keep food fresh with this bacteria-killing packaging

Posted on January 27, 2022 by | Leave a comment

NTU Singapore

Hepatitis A kswfoodworld

A team of scientists from NTU Singapore and Harvard T.H. Chan School of Public Health, US, has developed a ‘smart’ food packaging material that is biodegradable, sustainable and kills microbes that are harmful to humans. It could also extend the shelf-life of fresh fruit by two to three days.

The natural food packaging is made from a type of corn protein called zein, starch and other naturally derived biopolymers, infused with a cocktail of natural antimicrobial compounds (see video at the link above). These include oil from thyme, a common herb used in cooking, and citric acid, which is commonly found in citrus fruits.

In lab experiments, when exposed to an increase in humidity or enzymes from harmful bacteria, the fibres in the packaging have been shown to release the natural antimicrobial compounds, killing common dangerous bacteria that contaminate food, such as E. coli and Listeria, as well as fungi.

The packaging is designed to release the necessary miniscule amounts of antimicrobial compounds only in response to the presence of additional humidity or bacteria. This ensures that the packaging can endure several exposures, and last for months.

As the compounds combat any bacteria that grow on the surface of the packaging as well as on the food product itself, it has the potential to be used for a large variety of products, including ready-to-eat foods, raw meat, fruits, and vegetables.

In an experiment, strawberries that were wrapped in the packaging stayed fresh for seven days before developing mould, compared to counterparts that were kept in mainstream fruit plastic boxes, which only stayed fresh for four days.

The invention is the result of the collaboration by scientists from the NTU-Harvard T. H. Chan School of Public Health Initiative for Sustainable Nanotechnology (NTU-Harvard SusNano), which brings together NTU and Harvard Chan School researchers to work on cutting edge applications in agriculture and food, with an emphasis on developing non-toxic and environmentally safe nanomaterials.

The development of this advanced food packaging material is part of the University’s efforts to promote sustainable food tech solutions, that is aligned with the NTU 2025 strategic plan, which aims to develop sustainable solutions to address some of humanity’s pressing grand challenges.

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Posted in Active Packagin, antimicrobial resistance, Antimicrobials, Decontamination Microbial, E.coli, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Listeria, Listeria monocytogenes, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations

Research – Scientists invent biodegradable bacteria-killing packaging

Posted on January 10, 2022 by | Leave a comment

Food Safety News

Scientists from Harvard T.H. Chan School of Public Health and Nanyang Technological University Singapore have developed a biodegradable food packaging material that kills harmful microbes and could extend the shelf-life of fresh fruit by two to three days.

Having an antibacterial and biodegradable alternative for food packaging could be hugely beneficial for waste reductions and food safety. According to the U.S. Environmental Protection Agency, containers and packaging make up a major portion of municipal solid waste, amounting to 82.2 million tons of generation in 2018. Packaging is defined as the products used to wrap or protect goods, including food, beverages, medications and cosmetic products.

The new packaging is intended for food items such as raw meat, fish, fruit, vegetables and ready-to-eat meals. Professor Mary Chan, the director of NTU’s Centre for Antimicrobial Bioengineering who co-led the project, says the team’s aim is to replace conventional plastic packaging with the new material that will also double the shelf life of produce.

“Vegetables are a source of wastage because even if they are refrigerated, they will continue to respire, leading to spoilage after a week or two. With the antimicrobial packaging, there is a chance to extend their shelf life. . . and also make the vegetables and fruits look fresh with time,” she said.

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Posted in Active Packagin, Antibacterial, Decontamination Microbial, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, Research

Research – The effect of silver nanocomposite packaging based on melt mixing and sol–gel methods on shelf life extension of fresh chicken stored at 4 °C

Posted on January 27, 2019 by | Leave a comment

Online Library

Abstract

In the present study, seven types of films were produced using different proportions of polyethylene containing silver, clay, and titanium dioxide nanoparticles. Following the determination of the minimum inhibitory concentration of the films in the eradication of Staphylococcus aureus and Escherichia coli, the film containing 5% silver nanoparticles and 5% titanium dioxide nanoparticles was found to have the highest antimicrobial property and was determined to be an ideal cover for food products. The antibacterial effect of the films on the shelf life extension and quality of the chicken stored at 4 °C in the Days 1, 3, and 5 of the experiment was checked. The structure and morphology of the nanoparticles and the selected films were evaluated using a field emission scanning electron microscope, scanning electron microscope, transmission electron microscope, Fourier‐transform infrared spectroscopy, and dynamic light scattering. The analysis of the results indicated that the most appropriate inhibition growth was observed with S. aureus and E. coli in nutrient agar and the largest diameter of the radial inhibition zone occurred with S. aureus. Moreover, the analysis of variance showed that the effect of different concentrations of silver and titanium dioxide nanoparticles was significant (p < .05). The results of this study showed that the produced nanocomposite was used to preserve chicken meat for 5 days at 4 °C inhibited the growth of both types of bacteria.

Practical applications

Nowadays production of active packaging is increasing worldwide as they were proved to have numerous effects on inhibiting of microbial growth and even bactericidal effects. Therefore, a wide variety of food producers in different sections namely agriculture, dairy, and meat industries have applied nanopackaging using different nanoparticles. Thus, more research on different physicochemical and antimicrobial effects are needed.

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Posted in Active Packagin, E.coli, Staphylococcus aureus, Uncategorized