Efficacy of washing meat surfaces with 2% levulinic, acetic, or lactic acid for pathogen decontamination and residual growth inhibition

Meat Science ◽  
2011 ◽  
Vol 88 (2) ◽  
pp. 256-260 ◽  
Author(s):  
C.E. Carpenter ◽  
J.V. Smith ◽  
J.R. Broadbent
Keyword(s):  
Lactic Acid ◽  
Growth Inhibition ◽  
Residual Growth

Growth, Inhibition, and Survival of Listeria monocytogenes as Affected by Acidic Conditions

1990 ◽  
Vol 53 (8) ◽  
pp. 652-655 ◽  
Author(s):  
DONALD E. CONNER ◽  
VIRGINIA N. SCOTT ◽  
DANE T. BERNARD
Keyword(s):  
Lactic Acid ◽  
Listeria Monocytogenes ◽  
Growth Inhibition ◽  
Propionic Acid ◽  
Cell Populations ◽  
Growth And Survival ◽  
Viable Cells ◽  
Acidic Conditions ◽  
Ph Range ◽  
Lactic Acids

Growth and survival of four strains of Listeria monocytogenes under acidic conditions were investigated. Tryptic soy broth with yeast extract (TSBYE) was acidified with acetic, citric, hydrochloric, lactic, or propionic acid to pH 4.0–6.0, inoculated with L. monocytogenes and incubated at 30 or 4°C. The minimum test pH at which L. monocytogenes did not grow (inhibitory pH) was determined for each acid. In the pH range tested, this inhibitory pH was 5.0 for propionic acid, 4.5 for acetic and lactic acids, and 4.0 for citric and hydrochloric acids. All four strains gave similar results. Subsequent studies were conducted at 10 and 30°C to determine changes in cell populations in TSBYE adjusted to each inhibitory pH. Initial populations of viable cells (104 CFU/ml) were reduced to <10 CFU/ml within 1–3 weeks at 30°C, whereas at 10°C, L. monocytogenes survived for 11–12 weeks in acetic, citric, or propionic acid-adjusted media and for 6 weeks in media adjusted with hydrochloric or lactic acid. The concentration of undissociated lactic acid was 0.002 M at pH 4.5.

scholarly journals Citric and Lactic Acid Effects on the Growth Inhibition of E. coli and S. typhymurium on Beef during Storage

2015 ◽  
Vol 31 (3) ◽  
pp. 183-190 ◽  
Author(s):  
Gultaj Hussain ◽  
◽  
Abdur Rahman ◽  
Tariq Hussain ◽  
Siraj Uddin ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Growth Inhibition ◽  
E Coli

scholarly journals Growth Inhibition of Putrefactive Lactic Acid Bacteria, Leuconostoc sp. by Histidine.

1998 ◽  
Vol 3 (2) ◽  
pp. 73-77
Author(s):  
SETSUKO OSAWA ◽  
MARI ENDO ◽  
YOKO NAGASAKI ◽  
KANAKO MURAMATSU ◽  
YOSHIO HIDAKA ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Growth Inhibition

Growth inhibition of lactic acid bacteria in ham by nisin: A model approach

Meat Science ◽  
2014 ◽  
Vol 98 (4) ◽  
pp. 744-752 ◽  
Author(s):  
Daneysa L. Kalschne ◽  
Simone Geitenes ◽  
Marilei R. Veit ◽  
Cleonice M.P. Sarmento ◽  
Eliane Colla
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Growth Inhibition ◽  
Model Approach

scholarly journals Co-cultivation of Synechocystis salina and Pseudokirchneriella subcapitata under varying phosphorus concentrations evidences an allelopathic competition scenario

RSC Advances ◽  
2016 ◽  
Vol 6 (61) ◽  
pp. 56091-56100 ◽  
Author(s):  
A. L. Gonçalves ◽  
A. C. Abreu ◽  
A. Coqueiro ◽  
A. Gaspar ◽  
F. Borges ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Growth Inhibition ◽  
Pseudokirchneriella Subcapitata

This study suggests growth inhibition ofSynechocystis salinawhen co-cultured withPseudokirchneriella subcapitatathrough the production of an allelochemical – lactic acid.

scholarly journals Growth of the Bacteriocin-ProducingLactobacillus sakei Strain CTC 494 in MRS Broth Is Strongly Reduced Due to Nutrient Exhaustion: a Nutrient Depletion Model for the Growth of Lactic Acid Bacteria

2001 ◽  
Vol 67 (10) ◽  
pp. 4407-4413 ◽  
Author(s):  
Frédéric Leroy ◽  
Luc De Vuyst
Keyword(s):  
Lactic Acid ◽  
Growth Inhibition ◽  
Lactic Acid Production ◽  
Bacteriocin Production ◽  
Logistic Growth ◽  
Growth Equation ◽  
Nutrient Depletion ◽  
Growth Data ◽  
Set Up ◽  
Mrs Broth

ABSTRACT Although commercial MRS broth has been designed to allow excellent growth of lactobacilli, most of these bacteria are still subjected to a self-inhibiting process. The most likely explanation is the accumulation of lactic acid or other toxic end products and the depletion of nutrients. In this study, the self-inhibition ofLactobacillus sakei CTC 494 was analyzed in a kinetic way, and a nutrient depletion model was set up to describe the growth inhibition process. This simple model has considerable advantages compared to commonly used descriptive models such as the logistic growth equation. It offers a better fit and a more realistic description of the growth data by taking into account both growth inhibition due to lactic acid production and changes in growth rates due to nutrient depletion. Depending on the fermentation conditions, in MRS broth there appears to be a strong decrease of the specific growth rate over time. Some undefined compounds present in the complex nitrogen source of MRS broth appear to be of crucial importance because of their limited availability. Moreover, nutrient availability affects bacteriocin production through its effect on cell growth as well as on the bacteriocin production per cell. A plateau value for the bacteriocin production by L. sakei CTC 494 was observed.

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