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28 results on '"Møller, Cleide Oliveira de Almeida"'

1. Effect of Lactic Acid Bacteria Strains on the Growth and Aflatoxin Production Potential of Aspergillus parasiticus, and Their Ability to Bind Aflatoxin B1, Ochratoxin A, and Zearalenone in vitro

Author

Møller, Cleide Oliveira de Almeida, Freire, Luisa, Rosim, Roice Eliana, Margalho, Larissa Pereira, Balthazar, Celso Fasura, Franco, Larissa Tuanny, Sant'Ana, Anderson de Souza, Corassin, Carlos Humberto, Rattray, Fergal Patrick, Oliveira, Carlos Augusto Fernandes de, Møller, Cleide Oliveira de Almeida, Freire, Luisa, Rosim, Roice Eliana, Margalho, Larissa Pereira, Balthazar, Celso Fasura, Franco, Larissa Tuanny, Sant'Ana, Anderson de Souza, Corassin, Carlos Humberto, Rattray, Fergal Patrick, and Oliveira, Carlos Augusto Fernandes de

Abstract

The increased consumption of plant-based foods has intensified the concern related to mycotoxin intoxication. This study aimed to investigate the effect of selected lactic acid bacteria (LAB) strains on the growth of Aspergillus parasiticus NRRL 2999 and its production of aflatoxin (AF). The ability of the heat-killed (100 degrees C for 1 h) LAB strains to bind aflatoxin M-1 (AFM(1)) in milk and aflatoxin B-1 (AFB(1)), ochratoxin A (OTA), and zearalenone (ZEN) in potassium phosphate buffer (PPB) was also evaluated in vitro. Ten LAB strains were tested individually, by inoculating them simultaneously with the fungus or after incubation of the fungus for 24 or 48 h at 25 degrees C. Double layer yeast extract sucrose (YES) agar, de Man Rogosa and Sharpe (MRS) agar, and YES broth were incubated for 7 days at 25 degrees C to follow the development of the fungus. Levilactobacillus spp. 3QB398 and Levilactobacillus brevis 2QB422 strains were able to delay the growth of A. parasiticus in YES broth, even when these strains were inoculated 24 h after the fungus. The inhibitory effect of these LAB strains was confirmed by the reduction of fungus colony size, suggesting dominance of LAB by competition (a Lotka-Voltera effect). The production of AFB(1) by A. parasiticus was inhibited when the fungus was inoculated simultaneously with Lactiplantibacillus plantarum 3QB361 or L. plantarum 3QB350. No AFB(1) was found when Levilactobacillus spp. 2QB383 was present, even when the LAB was inoculated 48 h after the fungus. In binding studies, seven inactivated LAB strains were able to promote a reduction of at least 50% the level of AFB(1), OTA, and ZEN. This reduction varied depending on the pH of the PPB. In milk, however, only two inactivated LAB strains were able to reduce AFM(1), with a reduction of 33 and 45% for Levilactobacillus spp. 3QB398 (Levilactobacillus spp.) and L. brevis 2QB422, respectively. Nevertheless, these results clearly indicate the potential of using LAB for

Published
2021

2. Effect of Lactic Acid Bacteria Strains on the Growth and Aflatoxin Production Potential of Aspergillus parasiticus, and Their Ability to Bind Aflatoxin B1, Ochratoxin A, and Zearalenone in vitro

Author

Møller, Cleide Oliveira de Almeida, primary, Freire, Luisa, additional, Rosim, Roice Eliana, additional, Margalho, Larissa Pereira, additional, Balthazar, Celso Fasura, additional, Franco, Larissa Tuanny, additional, Sant’Ana, Anderson de Souza, additional, Corassin, Carlos Humberto, additional, Rattray, Fergal Patrick, additional, and Oliveira, Carlos Augusto Fernandes de, additional

Published
2021
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3. Effect of Lactic Acid Bacteria Strains on the Growth and Aflatoxin Production Potential of Aspergillus parasiticus , and Their Ability to Bind Aflatoxin B1, Ochratoxin A, and Zearalenone in vitro.

Author

Møller, Cleide Oliveira de Almeida, Freire, Luisa, Rosim, Roice Eliana, Margalho, Larissa Pereira, Balthazar, Celso Fasura, Franco, Larissa Tuanny, Sant'Ana, Anderson de Souza, Corassin, Carlos Humberto, Rattray, Fergal Patrick, and Oliveira, Carlos Augusto Fernandes de

Subjects
AFLATOXINS, ASPERGILLUS flavus, LACTIC acid bacteria, ASPERGILLUS parasiticus, COMPETITION (Biology), ZEARALENONE, POTASSIUM phosphates
Abstract

The increased consumption of plant-based foods has intensified the concern related to mycotoxin intoxication. This study aimed to investigate the effect of selected lactic acid bacteria (LAB) strains on the growth of Aspergillus parasiticus NRRL 2999 and its production of aflatoxin (AF). The ability of the heat-killed (100°C for 1 h) LAB strains to bind aflatoxin M1 (AFM1) in milk and aflatoxin B1 (AFB1), ochratoxin A (OTA), and zearalenone (ZEN) in potassium phosphate buffer (PPB) was also evaluated in vitro. Ten LAB strains were tested individually, by inoculating them simultaneously with the fungus or after incubation of the fungus for 24 or 48 h at 25°C. Double layer yeast extract sucrose (YES) agar, de Man Rogosa and Sharpe (MRS) agar, and YES broth were incubated for 7 days at 25°C to follow the development of the fungus. Levilactobacillus spp. 3QB398 and Levilactobacillus brevis 2QB422 strains were able to delay the growth of A. parasiticus in YES broth, even when these strains were inoculated 24 h after the fungus. The inhibitory effect of these LAB strains was confirmed by the reduction of fungus colony size, suggesting dominance of LAB by competition (a Lotka-Voltera effect). The production of AFB1 by A. parasiticus was inhibited when the fungus was inoculated simultaneously with Lactiplantibacillus plantarum 3QB361 or L. plantarum 3QB350. No AFB1 was found when Levilactobacillus spp. 2QB383 was present, even when the LAB was inoculated 48 h after the fungus. In binding studies, seven inactivated LAB strains were able to promote a reduction of at least 50% the level of AFB1, OTA, and ZEN. This reduction varied depending on the pH of the PPB. In milk, however, only two inactivated LAB strains were able to reduce AFM1, with a reduction of 33 and 45% for Levilactobacillus spp. 3QB398 (Levilactobacillus spp.) and L. brevis 2QB422, respectively. Nevertheless, these results clearly indicate the potential of using LAB for mycotoxin reduction. [ABSTRACT FROM AUTHOR]

Published
2021
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9. Robustness of a cross contamination model describing transfer of pathogens during grinding of meat

Author

Møller, Cleide Oliveira de Almeida, Sant’Ana, A. S., Hansen, Solvej Katrine Holm, Nauta, Maarten, Silva, L. P., Alvarenga, V. O., Maffei, D., Pacheco, F., Lopes, J., Franco, B. D. G. M., Aabo, Søren, and Hansen, Tina Beck

Subjects
Risk, Microbial transfer, Foodborne pathogens, Model assessment, Meat processing
Abstract

This study aimed to evaluate a cross contamination model for its capability of describing transfer of Salmonella spp. and L. monocytogenes during grinding of varying sizes and numbers of pieces of meats in two grinder systems. Data from 19 trials were collected. Three evaluation approaches were applied: i) Acceptable Simulation Zone method compared observed with simulated transfer, ii) each trial was fitted and parameters were integrated in a Quantitative Microbiological Risk Assessment model, iii) the Total Transfer Potential was calculated from fitted parameters. Risk estimates revealed that grinding was influenced by sharpness of grinder knife, specific grinder and grinding temperature.

Published
2016
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10. Predicting safe sandwich production:P. 017

Author

Birk, Tina, Duan, Zhi, Møller, Cleide Oliveira de Almeida, Hansen, H. F., Knøchel, S., and Hansen, Tina Beck

Subjects
Relative lag time, Salmonella, Listeria monocytogenes, Clost ridium botulinum
Published
2015

12. Reduction of Cheddar cheese ripening time through the addition of glucose

Author

Møller, Cleide Oliveira de Almeida, Czárán, Tamás László, Christensen, Bjarke Bak, Siegumfeldt, Henrik, Rattray, Fergal Patrick, Møller, Cleide Oliveira de Almeida, Czárán, Tamás László, Christensen, Bjarke Bak, Siegumfeldt, Henrik, and Rattray, Fergal Patrick

Published
2016

13. Where does Salmonella hide after grinding of meat?

Author

Hansen, Tina Beck, Møller, Cleide Oliveira de Almeida, Hansen, Solvej Katrine Holm, Andersen, Bettina, Aabo, Søren, Hansen, Tina Beck, Møller, Cleide Oliveira de Almeida, Hansen, Solvej Katrine Holm, Andersen, Bettina, and Aabo, Søren

Published
2016

16. Quantitative Microbiological Risk Assessment - QMRA

Author

de Martinis, Elaine, Teixeira, Gustavo, Møller, Cleide Oliveira de Almeida, Anderson, Sant'Ana, Franco, Bernadette, de Martinis, Elaine, Teixeira, Gustavo, Møller, Cleide Oliveira de Almeida, Anderson, Sant'Ana, and Franco, Bernadette

Published
2015

17. Evaluation of a cross contamination model describing transfer of salmonella spp. and listeria monocytogenes during grinding of pork and beef

Author

Møller, Cleide Oliveira de Almeida, de Anderson, S. Sant' Ana, Nauta, Maarten, Aabo, Søren, Hansen, Tina Beck, Møller, Cleide Oliveira de Almeida, de Anderson, S. Sant' Ana, Nauta, Maarten, Aabo, Søren, and Hansen, Tina Beck

Abstract

Can a promising cross contamination model be successfully applied to any condition of meat grinding? To answer this question we performed different challenge tests and developed a set of evaluation approaches.

Published
2015

19. Predicting safe sandwich production

Author

Birk, Tina, Duan, Zhi, Møller, Cleide Oliveira de Almeida, Friis Hansen, Heidi, Knøchel, Susanne, Hansen, Tina Beck, Birk, Tina, Duan, Zhi, Møller, Cleide Oliveira de Almeida, Friis Hansen, Heidi, Knøchel, Susanne, and Hansen, Tina Beck

Published
2015

21. Predicting safe sandwich production

Author

Birk, Tina, Duan, Zhi, Møller, Cleide Oliveira de Almeida, Hansen, Tina Beck, Friis Hansen, Heidi, Knøchel, Susanne, Birk, Tina, Duan, Zhi, Møller, Cleide Oliveira de Almeida, Hansen, Tina Beck, Friis Hansen, Heidi, and Knøchel, Susanne

Published
2014

23. Quantitative Risk Assessment of Salmonella spp. in fresh pork

Author

Møller, Cleide Oliveira de Almeida, Nauta, Maarten, Schaffner, Don, Dalgaard, Paw, Christensen, Bjarke Bak, Hansen, Tina Beck, Møller, Cleide Oliveira de Almeida, Nauta, Maarten, Schaffner, Don, Dalgaard, Paw, Christensen, Bjarke Bak, and Hansen, Tina Beck

Published
2013

26. Modelling transfer of Salmonella Typhimurium DT104 during simulation of grinding of pork

Author

Møller, Cleide Oliveira de Almeida, Nauta, M.J., Christensen, Bjarke Bak, Dalgaard, P., Hansen, T.B., Møller, Cleide Oliveira de Almeida, Nauta, M.J., Christensen, Bjarke Bak, Dalgaard, P., and Hansen, T.B.

Abstract

Aims: The aim of this study was to develop a model to predict cross-contamination of Salmonella during grinding of pork. Methods and Results: Transfer rates of Salmonella were measured in three experiments, where between 10 and 20 kg meat was ground into 200-g portions. In each experiment, five pork slices of about 200 g per slice were inoculated with 8–9 log-units of Salmonella Typhimurium DT104 and used for building up the contamination in the grinder. Subsequently, Salmonella-free slices were ground and collected as samples of c. 200 g minced pork. Throughout the process, representative samples were quantitatively analysed for Salmonella. A model suggested by Nauta et al. (2005) predicting cross-contamination of Campylobacter in poultry processing and two modified versions of this model were tested. Conclusions: The present study observed a tailing phenomenon of transfer of Salmonella during a small-scale grinding process. It was, therefore, hypothesized that transfer occurred from two environmental matrices inside the grinder and a model was developed. The developed model satisfactorily predicted the observed concentrations of Salmonella during its cross-contamination in the grinding of up to 110 pork slices. Significance and Impact of the Study: The proposed model provides an important tool to examine the effect of cross-contamination in quantitative microbial risk assessments and might also be applied to various other food processes where cross-contamination is involved.

Published
2012

28. Effect of Lactic Acid Bacteria Strains on the Growth and Aflatoxin Production Potential of Aspergillus parasiticus , and Their Ability to Bind Aflatoxin B 1 , Ochratoxin A, and Zearalenone in vitro .

Author

Møller COA, Freire L, Rosim RE, Margalho LP, Balthazar CF, Franco LT, Sant'Ana AS, Corassin CH, Rattray FP, and de Oliveira CAF

Abstract

The increased consumption of plant-based foods has intensified the concern related to mycotoxin intoxication. This study aimed to investigate the effect of selected lactic acid bacteria (LAB) strains on the growth of Aspergillus parasiticus NRRL 2999 and its production of aflatoxin (AF). The ability of the heat-killed (100°C for 1 h) LAB strains to bind aflatoxin M 1 (AFM 1 ) in milk and aflatoxin B 1 (AFB 1 ), ochratoxin A (OTA), and zearalenone (ZEN) in potassium phosphate buffer (PPB) was also evaluated in vitro . Ten LAB strains were tested individually, by inoculating them simultaneously with the fungus or after incubation of the fungus for 24 or 48 h at 25°C. Double layer yeast extract sucrose (YES) agar, de Man Rogosa and Sharpe (MRS) agar, and YES broth were incubated for 7 days at 25°C to follow the development of the fungus. Levilactobacillus spp. 3QB398 and Levilactobacillus brevis 2QB422 strains were able to delay the growth of A. parasiticus in YES broth, even when these strains were inoculated 24 h after the fungus. The inhibitory effect of these LAB strains was confirmed by the reduction of fungus colony size, suggesting dominance of LAB by competition (a Lotka-Voltera effect). The production of AFB 1 by A. parasiticus was inhibited when the fungus was inoculated simultaneously with Lactiplantibacillus plantarum 3QB361 or L. plantarum 3QB350. No AFB 1 was found when Levilactobacillus spp. 2QB383 was present, even when the LAB was inoculated 48 h after the fungus. In binding studies, seven inactivated LAB strains were able to promote a reduction of at least 50% the level of AFB 1 , OTA, and ZEN. This reduction varied depending on the pH of the PPB. In milk, however, only two inactivated LAB strains were able to reduce AFM 1 , with a reduction of 33 and 45% for Levilactobacillus spp. 3QB398 ( Levilactobacillus spp.) and L. brevis 2QB422, respectively. Nevertheless, these results clearly indicate the potential of using LAB for mycotoxin reduction., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Møller, Freire, Rosim, Margalho, Balthazar, Franco, Sant’Ana, Corassin, Rattray and Oliveira.)

Published
2021
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