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

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

Application of Modified Atmosphere Packaging and Active/Smart Technologies to Red Meat and Poultry: A Review

This paper reviews the current advances in modified atmosphere packaging (MAP) of red meat and poultry products. This type of packaging results in shelf-life prolongation by inhibiting microbial growth and promoting oxidative stability, compared to those packaged aerobically. High O 2 modified atmosphere packaging results in the desirable red colour, but it also enhances both lipid and pigment oxidation and promotes the growth of aerobic spoilage microorganisms. The presence of high levels of CO 2 in modified atmosphere packages inhibits microbial growth but can also cause meat discoloration through oxidation. Low O 2 MAP atmospheres limit microbial growth but change the colour of meat to purple. The use of CO gives promising results due to its positive effects on colour and microorganism growth inhibitions which result in shelf-life prolongation during wider distribution of case-ready products. The use of MAP can lead to an effective growth reduction of pathogenic microorganisms like Listeria sp. and Salmonella sp. The combination of MAP and vacuum with other treatments can be an effective tool in delivering safe minimally processed foodstuffs. In response to the changes in consumer demand and market trends, the area of active and intelligent/smart packaging is becoming more and more important. These relatively new technologies are capable of providing better results regarding product safety and shelf-life prolongation as well as communicating information on several quality characteristics of packaged food during transportation and storage. © 2012 Springer Science+Business Media, LLC