Current topics in active and intelligent food packaging for preservation of fresh foods.

The purpose of this review is to provide an overview of current packaging systems, e.g. active packaging and intelligent packaging, for various foods. Active packaging, such as modified atmosphere packaging (MAP), extends the shelf life of fresh produce, provides a high-quality product, reduces economic losses, including those caused by delay of ripening, and improves appearance. However, in active packaging, several variables must be considered, such as temperature control and different gas formulations with different product types and microorganisms. Active packaging refers to the incorporation of additive agents into packaging materials with the purpose of maintaining or extending food product quality and shelf life. Intelligent packaging is emerging as a potential advantage in food processing and is an especially useful tool for tracking product information and monitoring product conditions. Moreover, intelligent packaging facilitates data access and information exchange by altering conditions inside or outside the packaging and product. In spite of these advantages, few of these packaging systems are commercialized because of high cost, strict safety and hygiene regulations or limited consumer acceptance. Therefore more research is needed to develop cheaper, more easily applicable and effective packaging systems for various foods.

[1]  Carl E. Davis,et al.  Thermal inactivation of Escherichia coli O157:H7, Salmonella senftenberg, and enzymes with potential as time-temperature indicators in ground turkey thigh meat. , 1997 .

[2]  Kezban Candoğan,et al.  Antimicrobial activity of soy edible films incorporated with thyme and oregano essential oils on fresh ground beef patties. , 2010, Meat science.

[3]  M. Jouki,et al.  Effect of low-dose gamma radiation and active equilibrium modified atmosphere packaging on shelf life extension of fresh strawberry fruits , 2014 .

[4]  J. Beltrán,et al.  Effect of lactic acid bacteria on extention of shelf life and growth of Listeria monocytogenes in beef steaks stored in CO2- rich atmosphere , 2005 .

[5]  J. Beltrán,et al.  Effect of different concentrations of carbon dioxide and low concentration of carbon monoxide on the shelf-life of fresh pork sausages packaged in modified atmosphere. , 2005, Meat science.

[6]  Fereidoon Shahidi,et al.  Effect of chill storage and modified atmosphere packaging (MAP) on antioxidant activity, anthocyanins, carotenoids, phenolics and sensory quality of ready-to-eat shredded orange and purple carrots , 2005 .

[7]  Enver Baris Bingol,et al.  Effects of modified atmosphere packaging (MAP) on the microbiological quality and shelf life of ostrich meat. , 2011, Meat science.

[8]  Derek McDowell,et al.  Modified Atmosphere Packaging , 2011 .

[9]  Solveig Langsrud,et al.  A dissolving CO2 headspace combined with organic acids prolongs the shelf-life of fresh pork. , 2010, Meat science.

[10]  Paul Allen,et al.  THE EFFECT OF OXYGEN SCAVENGERS ON THE COLOR STABILITY AND SHELF-LIFE OF CO, MASTER PACKAGED PORK , 1998 .

[11]  J. Farber,et al.  Microbiological Aspects of Modified-Atmosphere Packaging Technology - A Review 1. , 1991, Journal of food protection.

[12]  Selçuk Yildirim,et al.  Development of palladium based oxygen scavenging films for food packaging , 2012 .

[13]  Samantha M. Grist,et al.  Optical Oxygen Sensors for Applications in Microfluidic Cell Culture , 2010, Sensors.

[14]  Sandhya. Modified atmosphere packaging of fresh produce: Current status and future needs , 2010 .

[15]  Maria Smolander,et al.  The use of freshness indicators in packaging. , 2003 .

[16]  G G Guilbault,et al.  Use of oxygen sensors to non-destructively measure the oxygen content in modified atmosphere and vacuum packed beef: impact of oxygen content on lipid oxidation. , 2002, Meat science.

[17]  Maria Luisa Amodio,et al.  Retention of quality and functional values of broccoli 'Parthenon' stored in modified atmosphere packaging , 2013 .

[18]  Eunji Kim,et al.  Calibrations between the variables of microbial TTI response and ground pork qualities. , 2013, Meat science.

[19]  O. Assis,et al.  A Review of the Antimicrobial Activity of Chitosan , 2009 .

[20]  B. Sheldon,et al.  Efficacy of nisin-coated polymer films to inactivate Salmonella Typhimurium on fresh broiler skin. , 2000, Journal of food protection.

[21]  M. Rhee,et al.  Effects of supercritical carbon dioxide treatment against generic Escherichia coli, Listeria monocytogenes, Salmonella typhimurium, and E. coli O157:H7 in marinades and marinated pork. , 2009, Meat science.

[22]  Theodore P. Labuza,et al.  APPLICATIONS OF “ACTIVE PACKAGING” FOR IMPROVEMENT OF SHELF‐LIFE AND NUTRITIONAL QUALITY OF FRESH AND EXTENDED SHELF‐LIFE FOODS , 1989 .

[23]  Marius Neag,et al.  On the Usage of RFID Tags for Tracking and Monitoring of Shipped Perishable Goods , 2014 .

[24]  A. R. Trott,et al.  Refrigeration for fruit, vegetables and other foods , 2000 .

[25]  Mingyuan Wang,et al.  Antioxidant activity and oxygen-scavenging system in orange pulp during fruit ripening and maturation , 2007 .

[26]  Stephen W. Bigger,et al.  Active Packaging Technologies with an Emphasis on Antimicrobial Packaging and its Applications , 2003 .

[27]  Maurice G. O'Sullivan,et al.  Carbon dioxide flavour taint in modified atmosphere packed beef steaks , 2011 .

[28]  Katherine Zerdin,et al.  The vitamin C content of orange juice packed in an oxygen scavenger material , 2003 .

[29]  C. Nagel,et al.  Growth Inhibition of a Pseudomonas by Carbon Dioxide , 1967 .

[30]  J. Kerry,et al.  Effects of oxygen concentration on the sensory evaluation and quality indicators of beef muscle packed under modified atmosphere. , 2008, Meat science.

[31]  R. Babu,et al.  Effect of modified atmosphere packaging on structural and physical changes in buffalo meat. , 2006, Meat science.

[32]  Paola Appendini,et al.  Review of antimicrobial food packaging , 2002 .

[33]  K. C. Gross,et al.  Maintaining Quality of Fresh-cut Tomato Slices through Modified Atmosphere Packaging and Low Temperature Storage , 2001 .

[34]  Hosahalli S. Ramaswamy,et al.  Developments in food packaging technology. Part II. Storage aspects , 1990 .

[35]  Nick Church,et al.  Developments in modified-atmosphere packaging and related technologies , 1994 .

[36]  William F. Reeder,et al.  Quality of 'Lula' Avocados Stored in Controlled Atmospheres with or without Ethylene 1 , 1972 .

[37]  Fang Liu,et al.  Storage characteristics and relationships between microbial growth parameters and shelf life of MAP sliced onions , 2006 .

[38]  P. R. Clingeleffer,et al.  Use of an oxygen absorber for disinfestation of consumer packages of dried vine fruit and its effect on fruit colour , 2005 .

[39]  Xin Li,et al.  Influence of vacuum skin packaging on color stability of beef longissimus lumborum compared with vacuum and high-oxygen modified atmosphere packaging. , 2012, Meat science.

[40]  O. Sørheim,et al.  The storage life of beef and pork packaged in an atmosphere with low carbon monoxide and high carbon dioxide. , 1999, Meat science.

[41]  Bárbara Ramos,et al.  Fresh fruits and vegetables—An overview on applied methodologies to improve its quality and safety , 2013 .

[42]  Gordon L. Robertson,et al.  Food Packaging and Shelf Life : A Practical Guide , 2009 .

[43]  A. C. Seydim,et al.  Antimicrobial activity of whey protein based edible films incorporated with oregano, rosemary and garlic essential oils [Erratum: 2007 Aug., v. 40, issue 7, p. 949.] , 2006 .

[44]  Mondher Bouzayen,et al.  Mechanisms of Fruit Ripening: Retrospect and Prospects , 2006 .

[45]  Kari Ylivainio,et al.  INFLUENCE OF IRON-CHELATES ON TRACE ELEMENT UPTAKE FROM TWO CALCAREOUS SOILS AND THE ACTIVITY OF OXYGEN-SCAVENGING ENZYMES IN LETTUCE , 2009 .

[46]  Q. Shen,et al.  Effect of modified atmosphere packaging on the browning and lignification of bamboo shoots , 2006 .

[47]  U. Annapure,et al.  Combined effect of chemical treatment and/or modified atmosphere packaging (MAP) on quality of fresh-cut papaya , 2013 .

[48]  Salam A. Ibrahim,et al.  Antimicrobial activity of ascorbic acid alone or in combination with lactic acid on Escherichia coli O157:H7 in laboratory medium and carrot juice , 2011 .

[49]  M. Hertog,et al.  Applicability of an enzymatic time temperature integrator as a quality indicator for mushrooms in the distribution chain , 2006 .

[50]  Cengiz Caner,et al.  Effect of oxygen and carbon dioxide absorbers on strawberry quality , 2011 .

[51]  Paul Tobback,et al.  Active and intelligent food packaging: legal aspects and safety concerns , 2008 .

[52]  Eric Dufour,et al.  Antibacterial activity of lactic acid bacteria against spoilage and pathogenic bacteria isolated from the same meat small-scale facility: 1—Screening and characterization of the antibacterial compounds , 2006 .

[53]  Linda J. Harris,et al.  Methods to Reduce/ Eliminate Pathogens from Fresh and Fresh-Cut Produce , 2003 .

[54]  Ioannis S. Arvanitoyannis,et al.  The effect of addition of olive oil and "Aceto balsamico di Modena" wine vinegar in conjunction with active atmosphere packaging on the microbial and sensory quality of "Lollo Verde" lettuce and rocket salad. , 2011, Anaerobe.

[55]  Leon G. M. Gorris,et al.  High Oxygen and High Carbon Dioxide Modified Atmospheres for Shelf‐life Extension of Minimally Processed Carrots , 2000 .

[56]  Lei Zhang,et al.  Effects of Active Modified Atmosphere Packaging on Postharvest Quality of Shiitake Mushrooms (Lentinula edodes) Stored at Cold Storage , 2012 .

[57]  Marianne Jakobsen,et al.  Predicting the amount of carbon dioxide absorbed in meat. , 2004, Meat science.

[58]  Dona Chamara,et al.  Effect of modified atmosphere and ethylene absorbers on extension of storage life of 'Kolikuttu' banana at ambient temperature. , 2000 .

[59]  J. Kerry,et al.  Past, current and potential utilisation of active and intelligent packaging systems for meat and muscle-based products: A review. , 2006, Meat science.

[60]  O. Martín‐Belloso,et al.  Respiratory rate and quality changes in fresh-cut pears as affected by superatmospheric oxygen. , 2007, Journal of food science.

[61]  H. Qi,et al.  Ethanol vapor treatment maintains postharvest storage quality and inhibits internal ethylene biosynthesis during storage of oriental sweet melons , 2013 .

[62]  Aaron L. Brody,et al.  Use of active packaging structures to control the microbial quality of a ready-to-eat meat product , 2013 .

[63]  M. Martínez-Ferrer,et al.  Modified Atmosphere Packaging of Minimally Processed Mango and Pineapple Fruits , 2002 .

[64]  Stephen Miles RFID Technology and Applications: Acknowledgments , 2008 .

[65]  J. Lorenzo,et al.  Effect of modified atmosphere and vacuum packaging on some quality characteristics and the shelf-life of "morcilla", a typical cooked blood sausage. , 2013, Meat science.

[66]  I. Cesarino,et al.  Electrochemical detection of carbamate pesticides in fruit and vegetables with a biosensor based on acetylcholinesterase immobilised on a composite of polyaniline-carbon nanotubes. , 2012, Food chemistry.

[67]  A. G. Endress,et al.  Active oxygen-scavenging enzymes activities in developing apple flowers and fruits , 1998 .

[68]  Suet Yen Sung,et al.  Antimicrobial agents for food packaging applications , 2013 .

[69]  Kazuhiko Itoh,et al.  Effect of nitrogen gas packaging on the quality and microbial growth of fresh-cut vegetables under low temperatures. , 2002, Journal of food protection.

[70]  Stefania Quintavalla,et al.  Antimicrobial food packaging in meat industry. , 2002, Meat science.

[71]  R. Linton,et al.  Inactivation kinetics of inoculated Escherichia coli O157:H7, Listeria monocytogenes and Salmonella enterica on strawberries by chlorine dioxide gas. , 2007, Food microbiology.

[72]  H. Vergara,et al.  CO(2) stunning procedure on Manchego light lambs: Effect on meat quality. , 2009, Meat science.

[73]  Jens Petter Wold,et al.  Detection of rancidity in freeze stored turkey meat using a commercial gas-sensor array system , 2006 .

[74]  S F Chang,et al.  Control of the dehydration process in production of intermediate-moisture meat products: a review. , 1996, Advances in food and nutrition research.

[75]  Gemma Oms-Oliu,et al.  The use of packaging techniques to maintain freshness in fresh-cut fruits and vegetables: a review , 2009 .

[76]  Norio Miura,et al.  Application of semiconductor gas sensor to quality control of meat freshness in food industry , 1995 .

[77]  Ali Abas Wani,et al.  Understanding Critical Factors for the Quality and Shelf-life of MAP Fresh Meat: A Review , 2011, Critical reviews in food science and nutrition.

[78]  Jinhua Du,et al.  Effects of aqueous chlorine dioxide treatment on polyphenol oxidases from Golden Delicious apple , 2007 .

[79]  Yiannis Ampatzidis,et al.  Field experiments for evaluating the incorporation of RFID and barcode registration and digital weighing technologies in manual fruit harvesting , 2009 .

[80]  Theeranun Janjarasskul,et al.  Edible packaging materials. , 2010, Annual review of food science and technology.

[81]  P. Taoukis,et al.  Applicability of Time‐Temperature Indicators as Shelf Life Monitors of Food Products , 1989 .

[82]  Shela Gorinstein,et al.  The effects of ethylene treatment on the bioactivity of conventional and organic growing ‘Hayward’ kiwi fruit , 2013 .

[83]  Nathalie Gontard,et al.  Active Modified Atmosphere Packaging of Fresh Fruits and Vegetables: Modeling with Tomatoes and Oxygen Absorber , 2003 .

[84]  Frederick Philip Coyne,et al.  The Effect of Carbon Dioxide on Bacterial Growth. , 1933 .

[85]  Werner B. Herppich,et al.  Impact of ethanol treatment on physiological and microbiological properties of fresh white asparagus (Asparagus officinalis L.) spears , 2014 .

[86]  R. P. Singh,et al.  Monitoring quality changes in stored frozen strawberries with time-temperature indicators , 1987 .

[87]  Sara Spilimbergo,et al.  Optimization of supercritical carbon dioxide treatment for the inactivation of the natural microbial flora in cubed cooked ham. , 2013, International journal of food microbiology.

[88]  Frank Devlieghere,et al.  Effect of high oxygen and high carbon dioxide atmosphere packaging on the microbial spoilage and shelf-life of fresh-cut honeydew melon. , 2013, International journal of food microbiology.

[89]  Fatimah Abu Bakar,et al.  Effect of modified atmosphere packaging on microbial flora changes in fishery products. , 2013 .

[90]  Ali Abas Wani,et al.  Sweet cherry (Prunus avium): Critical factors affecting the composition and shelf life , 2014 .

[91]  Paul Takhistov,et al.  Intelligent Packaging: Concepts and Applications , 2005 .

[92]  L Franzetti,et al.  Shelf life of case-ready beef steaks (Semitendinosus muscle) stored in oxygen-depleted master bag system with oxygen scavengers and CO2/N2 modified atmosphere packaging. , 2013, Meat science.

[93]  G. Vinci,et al.  New EU regulation aspects and global market of active and intelligent packaging for food industry applications , 2010 .

[94]  R. H. Linton,et al.  Efficacy of chlorine dioxide gas in reducing Escherichia coli O157:H7 on apple surfaces , 2003 .

[95]  K. Mcmillin,et al.  Retail Shelf‐Life of Pork Dipped in Organic Acid before Modified Atmosphere or Vacuum Packaging , 2005 .

[96]  Sandhya,et al.  Corrigendum to “Modified atmosphere packaging of fresh produce: Current status and future needs” [LWT Food Sci Technol 43 (2010) 381–392] , 2015 .

[97]  J. Beltrán,et al.  Effect of varying oxygen concentrations on the shelf-life of fresh pork sausages packaged in modified atmosphere , 2006 .

[98]  Ioannis S. Arvanitoyannis,et al.  Application of Modified Atmosphere Packaging and Active/Smart Technologies to Red Meat and Poultry: A Review , 2012, Food and Bioprocess Technology.

[99]  G. Gürakan,et al.  Effect of controlled atmosphere storage, modified atmosphere packaging and gaseous ozone treatment on the survival of Salmonella Enteritidis on cherry tomatoes. , 2006, Food microbiology.

[100]  Cengiz Caner,et al.  Use of microperforated films and oxygen scavengers to maintain storage stability of fresh strawberries , 2012 .

[101]  N. Matan,et al.  Antimicrobial activity of cinnamon and clove oils under modified atmosphere conditions. , 2006, International journal of food microbiology.

[102]  Y. Vinokur,et al.  The effects of active and passive modified atmosphere packaging on the survival of Salmonella enterica serotype Typhimurium on washed romaine lettuce leaves , 2012 .

[103]  A. Mills Oxygen indicators and intelligent inks for packaging food. , 2005, Chemical Society reviews.

[104]  Anders Leufvén,et al.  The effect of modified atmosphere packaging on the quality of Honeoye and Korona strawberries , 2008 .

[105]  Eduard Llobet,et al.  An RFID reader with onboard sensing capability for monitoring fruit quality , 2007 .

[106]  Hesham A. Eissa,et al.  EFFECT OF CHITOSAN COATING ON SHELF LIFE AND QUALITY OF FRESH‐CUT MUSHROOM , 2007 .

[107]  Kenneth W McMillin,et al.  Where is MAP Going? A review and future potential of modified atmosphere packaging for meat. , 2008, Meat science.

[108]  A. Jiménez,et al.  Edible films and coatings: Structures, active functions and trends in their use , 2011 .

[109]  O. Martín‐Belloso,et al.  Browning evaluation of ready-to-eat apples as affected by modified atmosphere packaging. , 2001, Journal of agricultural and food chemistry.

[110]  D B Kell,et al.  The inhibition by CO2 of the growth and metabolism of micro-organisms. , 1989, The Journal of applied bacteriology.

[111]  F. B. Abeles,et al.  Ethylene in Plant Biology , 2022 .

[112]  G. Robertson Food Packaging: Principles and Practice , 1992 .