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Critical Reviews in Food Science and Nutrition Volume 58, 2018 - Issue 13
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Reviews

Food-packaging migration models: A critical discussion

Gavriil GavriilDepartment of Environmental & Natural Resources Management, School of Engineering, University of Patras, 2 Seferi Str., GR-30100Agrinio, Greece
,
Antonis KanavourasDepartment of Food Science and Human Nutrition, Agricultural University of Athens, 55 Iera Odos Str., GR-11855, Athens, Greece
&
Frank A. CoutelierisDepartment of Environmental & Natural Resources Management, School of Engineering, University of Patras, 2 Seferi Str., GR-30100Agrinio, GreeceCorrespondence[email protected]
Pages 2262-2272 | Published online: 14 Aug 2017

References

  • Arvanitoyannis, I. S. and Bosnea, L. (2004). Migration of substances from food packaging materials to foods. Crit. Rev. Food Sci. Nutr. 44(2):63–73.
  • Baner, A., Brandsch, J., Franz, R. and Piringer, O. (1996). The application of a predictive migration model for evaluating the compliance of plastic materials with European food regulations. Food Addit. Contam. 13(5):587–601.
  • Begley, T., Castle, L., Feigenbaum, A., Franz, R., Hinrichs, K., Lickly, T., Mercea, P., Milana, M., O'Brien, A., Rebre, S., Rijk, R. and Piringer, O. G. (2005). Evaluation of migration models that might be used in support of regulations for food-contact plastics. Food Addit. Contam. 22(1):587–601.
  • Bird, R. B., Stewart, E. W. and Lightfoot, N. E. (2002). Transport Phenomena, 2nd ed. John Wiley & Sons Inc, New York.
  • Box, G. E. P. and Wilson, K. B. (1951). On the experimental attainment of optimum conditions (with discussion). J. Royal Stat. Soc. Ser. B 13(1):1–45.
  • Brandsch, J., Mercea, P. and Piringer, O. (2000). Possibilities and limitations of migration modeling. In Plastic packaging materials for food, barrier function, mass transport, quality assurance and legislation. In Plastic Packaging Materials for Food: Barrier Function, Mass Transport, Quality Assurance and Legislation. pp. 446–468. Baner, L. and Piringer, O., Eds., Wiley-VCH Verlag GmbH, Weinheim, Germany.
  • Brandsch, J., Mercea, P., Ruter, M., Tosa, V. and Piringer, O. (2002). Migration modelling as a tool for quality assurance of food packaging. Food Addit. Contam. 19:29–41.
  • Brandsch, R., Mercea, P., Zulch, A., Piringer, O. G. and Tosa, V. (2006a). Determination of physica–chemical parameters of food. Proceedings of Closing Conference of Food Migrosure Project. Baveno, Italy.
  • Brandsch, R., Mercea, P., Zulch, A., Piringer, O. G. and Tosa, V. (2006b). Migration model for foods. Proceedings of Closing Conference for Food Migrosure Project. Baveno, Italy.
  • Chan, T. C., Li, H. T. and Li, K. Y. (2015). Effects of shapes of solute molecules on diffusion: A study of dependences on solute size, solvent and temperature. J. Phys. Chem. B. 119(51):15718–15728.
  • Crank, J. (1975). The Mathematics of Diffusion. Oxford University Press, Bristol.
  • Cruz, J. M., Sanches-Silva, A., Sendon Garcia, E., Franz, R. and Paseiro Losada, P. (2008). Studies of mass transport of model chemicals from packaging into and within cheeses. J. Food Eng. 87(1):107–115.
  • Del Nobile, M. A., Bove, S., La Notte, E. and Sacchi, R. (2003). Influence of packaging geometry and material properties on the oxidation kinetics of bottled virgin olive oil. J. Food Eng. 57:189–197.
  • Downes, T. W. (1987). Practical and theoretical considerations in migration. In Food Product–Package Compatibility. pp. 44–58. Edited by Gray, J. E., Harte, B. and Miltz, J. Eds.
  • Fauconnier, M. L., Panhaleux, V., Vanzeveren, E., Marlier, M. and Wathelet, J. P. (2001). Modelling migration from high-density polyethylene containers into concentrated solutions used as food flavourings. Food Addit. Contam. 18(11):1040–1045.
  • Franz, R. (2005). Migration modelling from food-contact plastics into foodstuffs as a new tool for consumer exposure estimation. Food Addit. Contam. 22(10):920–937.
  • Gilbert, S. G., Miltz, J. and Giacin, J. R. (1980). Transport considerations of potential migrants from food packaging materials. J. Food Process. Preservation 4:27–49.
  • Gillet, G., Vitrac, O., Tissier, D., Saillard, P. and Desorby, S. (2009). Development of decision tools to assess migration from plastic materials in contact with food. Food Addit. Contam.: Part A. 26(12):1556–1573.
  • Haelck and Luttman. (1991). Sorption behaviour of citrus-flavour compounds in polyethylenes and polypropylenes: Effects of permeant functional groups and polymer structure. In Food and Packaging Interaction II. pp. 212–226. Hotchkiss, J. H., Ed., . Symposium Series 473 American Chemical Society, Washington, DC.
  • Haldimann, M., Alt, A., Blanc, A., Brunner, K., Sager, F. and Dudler, V. (2013). Migration of antimony from PET trays into food simulant and food: determination of Arrhenius parameters and comparison of predicted and measured migration data. Food Addit. Contam.. Part A. Chem., Anal., Control, Expo. Risk Assess. 30(3):587–598.
  • Han, B., Ding, L., Su, R., Chen, L., Wang, L., Qi, W. and He, Z. (2016). Migration of photoinitiators from paper to fatty food simulants: Experimental studies and model application. Food Addit. Contam.: Part A. 33(5):876–884.
  • Han, J. K., Downes, T. W. and Harte, B. R. (2003). Application of a computer model to evaluate the ability of plastics to act as functional barriers. Packaging Technol. Sci. 16(3):107–118.
  • Helmroth, E., Rijk, R., Dekker, M. and Jonger, W. (2002). Predictive modelling of migration from packaging materials into food products for regulatory purposes. Trends Food Sci. Technol. 13(3):102–109.
  • Johansson, F. and Leufven, A. (1994). Food packaging polymer films as aroma vapor barriers at different relative humidities. J. Food Sci. 59(6):1328–1331.
  • Kadam, A. A., Karbowiak, T., Voilley, A. and Debeaufort, F. (2015). Techniques to measure sorption and migration between small molecules and packaging. A Critic. Rev.. J. Sci. Food Agric. 95:1395–1407.
  • Kanavouras, A. and Coutelieris, F. A. (2006). Shelf-life predictions for packaged olive oil based on simulations. J. Food Chem. 96(1):48–55.
  • Lickly, T. D., Rainey, M. L, Burget, L. C., Breder, C. V. and Borodisky, L. (1997). Using a simple diffusion model to predict residual monomer migration: Consideration and limitations. Food Addit. Contam. 14(1):65–74.
  • Limm, W. and Hollifield, H. (1996). Modelling of additive diffusion in poleolefins. Food Addit. Contam. 13(8):949–967.
  • Maia, J., Quirós, R-B A., Sendón, R., Cruz, J. M., Seiler, A., Franz, R., Simoneau, C., Castle, L., Driffield, M., Mercea, P., Oldring, P., Tosa, V. and Paseiro, P. (2016). Determination of key diffusion and partition parameters and their use in migration modelling of benzophenone from low-density polyethylene (LDPE) into different foodstuffs. Food Addit. Contam.: Part A. 33(4):715–724.
  • Mangaraj, D. (1963). Cohesive-energy-density of high polymers. Makromol. Chem. 69:29–38.
  • Mercea, P. (2000a). Diffusion data for LDPE, HDPE and PP, Appendix 1. - Plastic packaging materials for food - barrier function, Mass transport. In Quality assurance and legislation. pp. 470–530. Piringer, O. G. and Baner, A. L., Eds., Wiley-VCH, Weinheim.
  • Mercea, P. (2000b). Models for diffusion in polymers. Plastic packaging materials for food - barrier function, Mass transport. In Quality Assurance and Legislation. pp. 125–157. Piringer, O. G. and Baner, A. L. Wiley-VCH, Weinheim.
  • Mercea, P., Petrescu, L., Piringer, O. and Tosa, V. (2008). User-friendly software for migration estimations. In Plastic Packaging: Interactions with Food and Pharmaceuticals, 2nd Edition. Piringer, O. and Baner, L., Eds., Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany.
  • Meulenaer, B. D. (2009). Migration from Packaging Materials. Predictive Modeling and Risk Assessment. R. Costa. Part II. pp. 139–151. Springer.
  • Nielsen, T. J. (1994). Limonene and micrene sorption into refillable polyethylene teriphthalate bottles, and washing effects on removal of sorbed compounds. J. Food Sci. 53:253–257.
  • Nollet, M. L. L. (2004). Handbook of Food Analysis: Residues and Other Food Component Analysis. Volume 2. Marcel Dekker Inc., New York.
  • O' Brien, A., Goodson, A. and Cooper, I. (1999). Polymer additive migration to food: A direct comparison of experimental data and values calculated from migration models for high-density polyethylene (HDPE). Food Addit. Contam. 8(4):367–380.
  • O' Brien, A. and Cooper, I. (2001). Polymer additive migration to food: A direct comparison of experimental data and values calculated from migration models for polypropylene. Food Addit. Contam. 18(4):343–355.
  • Paik, J. S. (1995). Predictive models for estimation of flavour sorption by packaging polymers. In Foods and Packaging Materials–Chemical Interactions. pp. 51–58. Ackermann, P., Ja∼gerstad, M. and Ohlsson, T., Eds., Royal Society of Chemistry, Cambridge.
  • Pennarun, P. Y., Dole, P. and Feigenbaum, A. (2004). Overestimated diffusion coefficients for the prediction of worst-case migration from PET: Application to recycled PET and to functional barriers assessment. Packaging Technol. Sci. 17(6):307–320.
  • Piringer, O. G. (1994). Evaluation of plastics for food packaging. Food Addit. Contam. 11(2):221–230.
  • Piringer, O. G. and Baner, A. L. (2000). Plastic Packaging Materials for Food: Barrier Function, Mass Transport, Quality Assurance and Legislation. Wiley-VCH, Weinheim.
  • Piringer, O. G. and Baner, A. L. (2008). Plastic Packaging: Interactions with Food and Pharmaceuticals. WILEY-VCH Verlag GmbH & Co. KGaA., Weinheim.
  • Pocas, M. F., Oliveira, J. C., Oliveira, F. A. R. and Hogg, T. (2008). A critical survey of predictive mathematical models for migration from packaging. Crit. Rev. Food Sci. Nutr. 48(10):913–928.
  • Ranade, V. V. (2002). Computational Flow Modeling for Chemical Reactor Engineering, Volume 5. Academic Press, Bath, UK.
  • Reinas, I., Oliveira, J., Pereira, J., Machado, F. and Pocas, M. F. (2012). Migration of two antioxidants from packaging into a solid food and into Tenax ®. J. Food Control 28:333–337.
  • Reynier, A., Dole, P. and Feigenbaum, A. (1999). Prediction of worst-case migration: Presentation of a rigorous methodology. Food Addit. Contam. 16(4):137–152.
  • Reynier, A., Dole, P. and Feigenbaum, A. (2002). Integrated approach of migration prediction using numerical modeling associated to experimental determination of key parameters. Food Addit. Contam. 19:42–55.
  • Risch, S. J. (1988). Scientific status summary. Migration of toxicants, flavours and odour-active substances from flexible packaging materials to food. Food Technol. 7:95–102.
  • Robertson, C. L. (2012). Food Packaging: Principles and Practice. 3rd Edition. pp. 11–48. CRC Press, Boca Raton, FL.
  • Roduit, B., Borgeat, H. C., Cavin, S., Fragniere, C. and Dudler, V. (2005). Application of Finite Element Analysis (FEA) for the simulation of release of additives from multilayer polymeric packaging structures. Food Addit. Contam. 22(10):945–955.
  • Sadler, G. D. and Braddock, R. J. (1990). Oxygen permeability of LDPE as a function of limonene absorption: An approach to modeling flavor “scalping”. J. Food Sci. 55(2):587–588.
  • Sanches-Silva, S., Cruz Freire, J. M., Franz, R. and Paseiro Losada, P. (2008). Mass transport studies of model migrants within dry foodstuffs. J. Cereal Sci. 48:662–669.
  • Tehrany, E. A. and Desobry, S. (2004). Partition coefficients in food/packaging systems: A review. Food Addit. Contam. 21(12):1186–1202.
  • Traiastaru, E., Rivis, A., Moldovan, R. C., Menelaou, A. and Georgescu, C. (2013). Modeling migration from plastic packaging materials used in food industry. J. Agro-Aliment. Processes Technol. 19(2):180–184.
  • Vitrac, O. and Hayert, M. (2005). Risk assessment of migration from packaging materials into foodstuffs. Am. Inst. Chem. Eng. J. 51(4):1080–1095.
  • Vitrac, O. and Hayert, M. (2006). Identification of diffusion transport properties from desorption/sorption kinetics: An analysis based on a new approximation of fick equation during solid–liquid contact. Ind. Eng. Chem. Res. 45:7941–7956.
  • Vitrac, O., Mougharber, A. and Feigenbaum, A. (2007). Interfacial mass transport properties which control the migration of packaging constituents into foodstuff. J. Food Eng. 79(3):1048–1064.
  • Welle, F. and Franz, R. (2012). Diffusion coefficients and activation energies of diffusion of low molecular weight migrants in Poly(ethylene terephthalate) bottles. J. Polym. Test. 31:93–101.
  • Zhang, S. and Zhao, H. (2014). Study on flavonoid migration from active low-density polyethylene film into aqueous food simulants. J. Food Chem. 157:45–50.
  • Zulch, A. and Piringer, O. (2010). Measurement and modeling of migration from paper and board into foodstuffs and dry food simulants. Food Addit. Contam. 27:1306–1324.

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