Polysaccharide-based Biomaterials with Antimicrobial and Antioxidant Properties
Coma, Véronique
http://dx.doi.org/10.4322/polimeros020ov002
Polímeros: Ciência e Tecnologia, vol.23, n3, p.287-297, 2013
Abstract
Active packaging is one of the responses to the recent food-borne microbial outbreaks and to the consumer’s demand for high quality food and for packaging that is more advanced and creative than what is currently offered. Moreover, with the recent increase in ecological awareness associated with the dramatic decrease in fossil resources, research has turned towards the elaboration of more natural materials. This paper provides a short review of biomaterials exhibiting antimicrobial and antioxidant properties for applications in food preservation. The two main concepts of active biopackaging materials are briefly introduced. The different polysaccharides potentially used in packaging materials are then presented associated with a brief overview of research works related to biopackaging, exhibiting notably antimicrobial or antioxidant properties. Finally, future trends such as the release-on-demand of bioactive agents are discussed
Keywords
Polysaccharides, active biomaterials, antimicrobial and antioxidant biopackaging
References
1. Kilcast, D. & Subramaniam, P. – “Introduction”, in: The stability and shelf-life of food, Kilcast D. & Subramaniam P. (eds), Cambridge, Woodhead Publishing Ltd (2000).
2. Cutter, C. N. - Critical Reviews in Food Science and Nutrition, 42, p.151 (2002).
3. Kerry, J.P.; O’Grady, M. N. & Hogan, S. A. - Meat Science, 74, p.113 (2006).
4. Wallace, D.; Gilder, T. V.; Shallow, S.; Fiorentino. S.; Segler, S.; Smith, K.; Shiferaw, B.; Etzel, R.; Garthright, W. & Angulo, F. - J. Food Prot., 63, p.807 (2000).
5. Jones, J. M. – “Food safety”, in: Chemical and functional properties of food components, Sikorski Z. E. (ed.), London, CRC press (2002).
6. Aymerich, M.; Garriga, J.; Jofre, A.; Martin, B. & Monfort, J.M. – “The use of bacteriocins against meatborne pathogens”, in: Advanced technologies for meat processing, Nollet, L. M. L. & Toldra, F. (eds.), London, CRC Press (2006).
7. Mead, P. S.; Slutsker, L.; Dietz. V.; McCaig, L. F.; Bresee, J. S.; Shapiro, C.; Griffin, P. M. & Tauxe, R. V., Emerg. Infect. Dis, 5, p.607 (1999).
8. Wolffs, P. & Radstrom, P. – “Real-time PCR for the detection of pathogens in meat”, in: Advanced technologies for meat processing, Nollet, L. M. L. & Toldra, F. (eds), London, CRC Press (2006).
9. U.S. FOOD AND DRUG ADMINISTRATION – FDA. Center for Food Safety and Applied Nutrition. Office of Premarket Approval. GRAS Notices. http:/vm.cfsan.fda. gov. (2001).
10. Cooksey, K. - Food Additives and Contaminants, 22, p.980 (2005).
11. Coma, V. – “Antimicrobial and antioxidant biopackaging for meat and poultry”, in: Meat, poultry and seafood packaging, Kerry, J. & Whitworth, S. (eds.), Under press (2010).
12. Miltz, M.; Rydlo, T.; Mor, A. & Polyakov, V. - Packag. Technol. Sci., 19, p.345 (2006).
13. De Jong, A. R.; Boumans, H.; Slaghek, T.; Van Veen, J.; Rijk, R. & Van Zandvoort, M. - Food Additives and Contaminants: Part A, 25, p.975 (2005).
14. Lourdin, D. & Colonna, P., “Les matériaux à base d’amidons et de leurs derives”, in: La chimie verte, Colonna, P. (ed), Paris, Tec & Doc (2006).
15. Arvanitoyannis, I. - J Macromo. Sci - Rev Macromo. Chem Phys, 2, p.205 (1999).
16. Petersen, K.; Nielsen, P.V.; Bertelsen, G.; Lawther, M.; Olsen, M.B.; Nilsson, N.H. & Mortensen, G. - Trends in Food Science & Technology, 10, p.52 (1999).
17. Tharanathan, R.N. - Trends in Food Science & Technology, 14, p.71 (2003).
18. Coma, V. - Meat sciences, 78, p.90 (2008).
19. Coma, V. – «Perspectives for the active packaging of meat products», Advances technologies for meat processing, Nollet L. & Toldra F. (eds.) (2006).
20. Coma, V. – “Bioactive chitosan-based substances and films” in: Current Research and Developments on Chitin and Chitosan in Biomaterial Science, v. 1, Jayakumar R. & Prabaharan M. (eds), Research Signpost (2008).
21. Coma, V. – “Les matériaux bioactifs et biodégradables à base de chitosane” in: Chitine et Chitosane: du polymère à l’application, Crini G. (ed), Editions des Presses Universitaires de Franche-Comté, France, (2009).
22. Mathlouthi, M. - «Emballage et conservation des produits alimentaires», Mathlouthi, M. (ed), Polytechnica, Paris (1996).
23. Maynard, F. - “Edible film and method”, European Patent 0935921 (1999).
24. Sebti, I. “Bio-emballage actif incorporant la nisine, diffusion de cette bactériocine en gel d’agarose”, Doctorat thesis, Université Bordeaux1, France (2002).
25. Pyla, R.; Kim, T. J.; Silva, J. L. & Jung, Y. S. - Int. J. Food. Microbiol. 137, p.154 (2010).
26. Shen, X. L.; Wu, J. M.; Chen, Y. & Zhao, G. - Food Hydrocolloids, 4, p.285 (2009)
27. Vásconez, M. B.; Flores, S. K.; Campos, C. A.; Alvarado, J. & Gerschenson, L. N. - Food Research International, 42, p.762 (2009).
28. Mathew, S. & Abraham, E. - Food Hydrocolloids, 5, p.826 (2008).
29. Klemm, D.; Philipp, B.; Heinze, T.; Heinze, U. & Wagenknecht W. “Comprehensive Cellulose Chemistry”, in: Fundamentals and analytical Methods, vol.1, Klemm, D.; Philipp, B.; Heinze, T.; Heinze, U. & Wagenknecht W. (eds.), Edition Weinheim, Wiley (1998).
30. Hjärtstam, J. & Hjertberg, T. - Journal of Applied Polymer Science, 72, p.529 (1999).
31. De la Cruz, G. V.; Torres, J. A. & Martín-Polo, M. O. - Journal of Food Engineering, 48, p.91 (2001).
32. Cuq, B.; Aymard, C.; Cuq, J. L. & Guilbert, S. - Journal of Food Science, 60, p.1369 (1995).
33. Coma, V.; Sebti, I. ; Deschamps, A. & Pichavant, H.F. - Journal of Food Protection, 64, p.470 (2001).
34. Sebti, I.; Pichavant, F. & Coma V. - Journal of Agricultural and Food Chemistry, 50, p.4290 (2002).
35. Sebti, I. & Coma, V. - Carbohydrate Polymers, 49, p.139 (2002)
36. Sebti, I.; Delves-Broughton, J. & Coma, V. - Journal of Agricultural and Food Chemistry, 51, p.6468 (2003).
37. Sebti, I.; Blanc, D.; Carnet-Ripoche, A.; Saurel, R. & Coma, V. - Journal of Food Engineering, 63, p.185 (2004).
38. Gemili, S.; Yemenicioglu, A, & Altinkaya, S.A. – Journal of Food Engineering, 90, p.453 (2009).
39. Möller, H. ; Grelier, S.; Pardon, P. & Coma, V. - Journal of Agricultural and Food Chemistry, 52, p.6585 (2004).
40. Gemili, S.; Yemenicioglu, A, & Altinkaya, S. A. – Journal of Food Engineering. 96, p.325 (2010).
41. Aspinall, G. O. -. Advances in Carbohydrate Chemistry, 14, p.429 (1959).
42. Chesson, A., “Supplementary enzymes to improve the utilization of pig and poultry diets”, in: Recent Advances in Animal Nutrition, Haresign, W. & Cole, D.J.A. (eds.), Butterworths, London (1987).
43. Schadel, C.; Blöchl, A.; Richter, A. & Hoch, G. – Plant physiology and Biochemistry, 48, p.1 (2010).
44. Ebringerova, A.; Hromadkova, Z. & Heinze; T. - Advance in polymer sciences, 186, p.1 (2005).
45. Gabrielii, I.; Gatenholm, P.; Glasser, W.G.; Jain, R.K. & Kenne, L. - Carbohydrate Polymers, 43, p.367 (2000).
46. Hansen, N. M. L. & Plackett D. - Biomacromolecules, 9, p.1493 (2008).
47. Hartman, J.; Albertsson, A.C.; Lindblad, M.S.; Sjoberg, J. - Journal of applied polymer, 4, p.2985 (2006).
48. Gröndahl, M. & Gatenholm P. – “Oxygen Barrier Films Based on Xylans Isolated from Biomass”, in: Materials, Chemicals, and Energy from Forest Biomass, ACS Symposium Series, p.137 (2007).
49. Stipanovic, A. J.; Haghpanah, J. S.; Amidon, T. E.; Scott G. M.; Barber, V. & Mishr, M. - “Opportunities for Hardwood Hemicellulose in Biodegradable Polymer Blends”, in: Materials, Chemicals, and Energy from Forest Biomass, cap.7, ACS Symposium Series, p.107 (2007).
50. Willför, S.; Sundberg, K.; Tenkanen, M. & Holmbom B. - Carbohydrate Polymers, 72, p.197 (2008).
51. Kongruang, S. – “Quantification and reactivity of cellulose reducing ends”. www.bre.orst.edu/Presentations/ SasithornKongruang.ppt.
52. Pavlath, A. E.; Voisin, A. and Robertson G. H. – “Pectinbased biodegradable water insoluble films Application of polymers in foods”, in: Die Makromolekulare Chemie. Macromolecular, Symposium, Dallas TX (1999).
53. Kang; H. J.; Cheorun J. O.; YOUNG LEE, N. A.; Kwon J. H. & BYUN M. W. - Carbohydrate polymers, 60, p.547 (2005).
54. Kang, H. J.; Job, C.; Kwon, J. H.; Kim, J. H.; Chung, H. J. & Byun, M. W. - Food Control, 18, p.430 (2007).
55. Jin, T.; Liu, L. S.; Zhang, H. & Hicks, K. - International Journal of Food Science and Technology, 44, p.322 (2009).
56. Choi, J. H.; Choi, W. Y.; Cha, D. S.; Chinnan, M. J.; Park, H. J.; Lee, D. S. & Park, J. M. - LWT - Food Sciences and Technology, 38, p.417 (2005).
57. Marcos, B.; Aymerich, T.; Monfort, J. M. & Garriga, M. - International Journal of Food Microbiology, 117, p.148 (2007).
58. Oussalah, M; Caillet, S.; Salmiéri, S.; Saucier, L. & Lacroix, M. - Journal of Food Protection, 70, p.901 (2007).
59. Izawa, H.; Nawaji, M.; Kanako, Y. & Kadokawa, J. I. - Macromolecular bioscience, 9, p.1098 (2009).
60. Rousseau, C. F. & Gagnieu, C. H. - Biomaterials, 23, p.1503 (2002).
61. Soares, N. D. F. F. – “Chitosan Properties and application”, in: Biodegradable polymer blends and composites from renewable resources, Long Y. (ed), Wiley, New York (2009).
62. Crini, G. & Badot, P. M. - Progress in polymer science, 33, p.399 (2008).
63. Rungsardthong, S.; Wongvuttanakul, N.; Kongpien, N. & Chotiwaranon, P. - Process Biochemistry, 41, p.589 (2006).
64. Paulino, A. T.; Simionato, J. L.; Garcia, J. C. & Nozaki, J. - Carbohydrate Polymers, 64, p.98 (2006).
65. Jaworska, M. M. & Szewczyk, K. W. – “Chitosan from Absidia sp.”, in: Advances in Chitin Science, Domard A., Roberts A. F. & Varum K. M. (eds), Jacques André Publisher, Lyon (1997).
66. Crini, G.; Guibal, E.; Morcellet, M.; Torri, G. & Badot, P. M. – “Chitine et chitosane : synthèse, propriétés et principales application”, in: Chitine et chitosane, du biopolymère à l’application, Crini, G.; Badot, P. M. & Guibal, E. (eds.), Presse Universitaires de Franche-Comté, Besançon (2009).
67. Sudarshan, N. R.; Hoover, D. G. & Knorr, D. - Food Biotechnol., 6, p.257 (1992).
68. Goy, R. C.; De Britto, D. & Assis, O. B. G. - Polimeros Ciencia e Technologia, 19, p.241 (2009).
69. Coma, V.; Martial-Gros, A.; Garreau, S.; Copinet, A.; Salin, F. & Deschamps, A. - Journal of Food Science, 67, p.1162 (2002).
70. Coma, V.; Deschamps, A. & Martial-Gros, A. - Journal of Food Science, 68, p.2788 (2003).
71. Sebti, I.; Martial-Gros, A.; Carnet-Pantiez, A.; Grelier, S. & Coma V. - Journal of Food Science, 70, p.100 (2005).
72. Fimbeau, S.; Grelier, S.; Copinet, A. & Coma, V. - Carbohydrate Polymers, 65, p.185 (2006).
73. Muhizi, T.; Coma, V. & Grelier, S. - Carbohydrate Research, 343, p.2369 (2008).
74. Muhizi, T.; Grelier, S. & Coma, V. - Journal of Agricultural and Food Chemistry, 57, p.11092 (2009).
75. Muhizi, T.; Grelier, S. & Coma, V. - Journal of Agricultural and Food Chemistry, 57, p.8770 (2009).
76. Belalia, R.; Grelier, S.; Benaissa, M. & Coma, V. - Journal of Agricultural and Food Chemistry, 65, p.1582 (2008).
77. Kosaraju, S. L.; D’ath, L. & Lawrence, A. - Carbohydrate Polymers, 6, p.163 (2006).
78. Parize, A. L.; Rozone de Souza, T. C.; Costa Brighente, I. M.; Fávere, V. T.; Laranjeira, M. C. M.; Spinelli, A. & Longo, E. - African Journal of Biotechnology, 7, p.3107 (2008).
79. Özmeric, N.; Özcan, G.; Haytac, C. M.; Alaaddinoglu, E. E.; Sargon, M. F. & Senel, S. Journal of biomedical materials research, 51, p.500 (2000).
80. Portes, E.; Gardrat, C.; Castellan, A. & Coma, V. - Carbohydrate Polymers, 76, p.578 (2009).
81. Yen, M. T.; Yang, J. H. & Mau, J. L. - Carbohydrate Polymers, 74, p.840 (2008).
82. Kim, K.W. & Thomas, R.L. Food Chemistry, 101, p.308 (2007).
83. Nguyen, V. T.; Gidley, M. J. & Dykes, G. A. - Food Microbiology, 25, p.471 (2008).
84. Heyraud, A.; Rinaudo, M.; Bresin A.; Heulin, T.; Santaella, C.; & Baynast, R. – Bioprocédés (2008).
85. Mauriello, G.; De Luca, E.; La Storia, A.; Villani, F. & Ercolini, D. - Letters in Applied Microbiology, 41, p.464 (2005).