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W2007788506 startingPage "308" @default.
W2007788506 abstract "The aim of this work was to describe the temperature dependence of microbial inactivation for several storage conditions and protective systems (lactose, trehalose and dextran) in relation to the physical state of the sample, i.e. the glassy or non-glassy state. The resulting inactivation rates k were described by applying two models, Arrhenius and Williams-Landel-Ferry (WLF), in order to evaluate the relevance of diffusional limitation as a protective mechanism. The application of the Arrhenius model revealed a significant decrease in activation energy E(a) for storage conditions close to T(g). This finding is an indication that the protective effect of a surrounding glassy matrix can, at least, partly be ascribed to its inherent restricted diffusion and mobility. The application of the WLF model revealed that the temperature dependence of microbial inactivation above T(g) is significantly weaker than predicted by the universal coefficients. Thus, it can be concluded that microbial inactivation is not directly linked with the mechanical relaxation behavior of the surrounding matrix as it was reported for viscosity and crystallization phenomena in case of disaccharide systems." @default.
W2007788506 created "2016-06-24" @default.
W2007788506 creator A5030827502 @default.
W2007788506 creator A5072399641 @default.
W2007788506 creator A5086285849 @default.
W2007788506 date "2012-12-01" @default.
W2007788506 modified "2023-09-24" @default.
W2007788506 title "Evaluation of the relevance of the glassy state as stability criterion for freeze-dried bacteria by application of the Arrhenius and WLF model" @default.
W2007788506 cites W1560365516 @default.
W2007788506 cites W1963706124 @default.
W2007788506 cites W1966607943 @default.
W2007788506 cites W1966836394 @default.
W2007788506 cites W1967491763 @default.
W2007788506 cites W1969180022 @default.
W2007788506 cites W1977539889 @default.
W2007788506 cites W1977682349 @default.
W2007788506 cites W1983259135 @default.
W2007788506 cites W1983352981 @default.
W2007788506 cites W1983496733 @default.
W2007788506 cites W1984307162 @default.
W2007788506 cites W1985536677 @default.
W2007788506 cites W1990000822 @default.
W2007788506 cites W1990201379 @default.
W2007788506 cites W1993804763 @default.
W2007788506 cites W1998295612 @default.
W2007788506 cites W2002038372 @default.
W2007788506 cites W2002720413 @default.
W2007788506 cites W2003625520 @default.
W2007788506 cites W2008892877 @default.
W2007788506 cites W2013604704 @default.
W2007788506 cites W2013787559 @default.
W2007788506 cites W2015371585 @default.
W2007788506 cites W2016934035 @default.
W2007788506 cites W2017534159 @default.
W2007788506 cites W2024118271 @default.
W2007788506 cites W2029369262 @default.
W2007788506 cites W2029570927 @default.
W2007788506 cites W2040328755 @default.
W2007788506 cites W2040774902 @default.
W2007788506 cites W2040923783 @default.
W2007788506 cites W2041347697 @default.
W2007788506 cites W2049842186 @default.
W2007788506 cites W2050196860 @default.
W2007788506 cites W2051289113 @default.
W2007788506 cites W2057663307 @default.
W2007788506 cites W2060881787 @default.
W2007788506 cites W2062268650 @default.
W2007788506 cites W2063057981 @default.
W2007788506 cites W2063494353 @default.
W2007788506 cites W2063951483 @default.
W2007788506 cites W2066470838 @default.
W2007788506 cites W2067106834 @default.
W2007788506 cites W2073941664 @default.
W2007788506 cites W2074001853 @default.
W2007788506 cites W2074816996 @default.
W2007788506 cites W2080055518 @default.
W2007788506 cites W2081131565 @default.
W2007788506 cites W2081170911 @default.
W2007788506 cites W2081752533 @default.
W2007788506 cites W2085058369 @default.
W2007788506 cites W2087518697 @default.
W2007788506 cites W2089549787 @default.
W2007788506 cites W2104143047 @default.
W2007788506 cites W2113151858 @default.
W2007788506 cites W2116631463 @default.
W2007788506 cites W2117669255 @default.
W2007788506 cites W2117810443 @default.
W2007788506 cites W2129887903 @default.
W2007788506 cites W2133494763 @default.
W2007788506 cites W2156370397 @default.
W2007788506 cites W2165234277 @default.
W2007788506 cites W2168933254 @default.
W2007788506 cites W2171703672 @default.
W2007788506 cites W2557517389 @default.
W2007788506 cites W272579938 @default.
W2007788506 cites W4247700609 @default.
W2007788506 cites W4250513122 @default.
W2007788506 cites W4296587746 @default.
W2007788506 cites W4320304956 @default.
W2007788506 doi "https://doi.org/10.1016/j.cryobiol.2012.08.005" @default.
W2007788506 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22964396" @default.
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