Biomedical Engineering Reference
In-Depth Information
Katla T, Møretrø T, Sveen I et al (2002) Inhibition of
Listeria monocytogenes
in chicken cold cuts
by addition of sakacin P and sakacin P-producing
Lactobacillus sakei
. J Appl Microbiol
93:191-196
Korkeala H, Suortti T, M
P (1988) Ropy slime formation in vacuum-packed cooked meat
products caused by homofermentative lactobacilli and a
Leuconosto
c species. Int J Food
Microbiol 7:339-347
Labadie J (1999) Consequences of packaging on bacterial growth. Meat is an ecological niche.
Meat Sci 52:299-305
Lauková A, Czikková S, Laczková S et al (1999) Use of enterocin CCM 4231 to control
Listeria
monocytogenes
in experimentally contaminated dry fermented Hornád salami. Int J Food
Microbiol 52:115-119
Leroy F, Lievens K, De Vuyst L (2005) Interactions of meat-associated bacteriocin-producing
Lactobacilli with
Listeria innocua
under stringent sausage fermentation conditions. J Food Prot
68:2078-2084
Leroy F, Verluyten J, De Vuyst L (2006) Functional meat starter cultures for improved sausage
fermentation. Int J Food Microbiol 106:270-285
Liserre AM, Landgraf M, Destro MT et al (2002) Inhibition of
Listeria monocytogenes
by a bac-
teriocinogenic
Lactobacillus sake
strain in modifi ed atmosphere-packaged Brazilian sausage.
Meat Sci 61:449-455
Luchansky JB, Call JE (2004) Evaluation of nisin-coated cellulose casings for the control of
Listeria monocytogenes
inoculated onto the surface of commercially prepared frankfurters. J
Food Prot 67:1017-1021
Lücke FK (2000) Utilization of microbes to process and preserve meat. Meat Sci 56:105-115
Lungu B, Johnson MG (2005) Fate of
Listeria monocytogenes
inoculated onto the surface of
model Turkey frankfurter pieces treated with zein coatings containing nisin, sodium diacetate,
and sodium lactate at 4 °C. J Food Prot 68:855-859
Maks N, Zhu L, Juneja VK et al (2010) Sodium lactate, sodium diacetate and pediocin: effects and
interactions on the thermal inactivation of
Listeria monocytogenes
on bologna. Food Microbiol
27:64-69
Mangalassary S, Han I, Rieck J et al (2008) Effect of combining nisin and/or lysozyme with in-
package pasteurization for control of
Listeria monocytogenes
in ready-to-eat turkey bologna
during refrigerated storage. Food Microbiol 25:866-870
Maragkoudakis PA, Mountzouris KC, Psyrras D et al (2009) Functional properties of novel protec-
tive lactic acid bacteria and application in raw chicken meat against
Listeria monocytogenes
and
Salmonella enteritidis
. Int J Food Microbiol 130:219-226
Marcos B, Aymerich T, Monfort JM et al (2007) Use of antimicrobial biodegradable packaging to
control
Listeria monocytogenes
during storage of cooked ham. Int J Food Microbiol
120:152-158
Marcos B, Aymerich T, Monfort JM et al (2008a) High-pressure processing and antimicrobial
biodegradable packaging to control
Listeria monocytogenes
during storage of cooked ham.
Food Microbiol 25:177-182
Marcos B, Jofré A, Aymerich T et al (2008b) Combined effect of natural antimicrobials and high
pressure processing to prevent
Listeria monocytogenes
growth after a cold chain break during
storage of cooked ham. Food Control 19:76-81
Mataragas M, Drosinos EH, Vaidanis A et al (2006) Development of a predictive model for spoil-
age of cooked cured meat products and its validation under constant and dynamic temperature
storage conditions. J Food Sci 71:157-167
Mattila K, Saris P, Työppönen S (2003) Survival of
Listeria monocytogenes
on sliced cooked sau-
sage after treatment with pediocin AcH. Int J Food Microbiol 89:281-286
Mauriello G, Ercolini D, La Storia A et al (2004) Development of polythene fi lms for food packag-
ing activated with an antilisterial bacteriocin from
Lactobacillus curvatus
32Y. J Appl
Microbiol 97:314-322
McMillin KW (2008) Where is MAP Going? A review and future potential of modifi ed atmo-
sphere packaging for meat. Meat Sci 80:43-65
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