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Items: 1 to 20 of 93

1.

Flow cytometric method for in situ preparation of standard materials of a small defined number of microbial cells with colony-forming potentiality.

Matsuoka H, Nakano K, Takatani N, Yoshida T, Igimi S, Saito M.

J AOAC Int. 2014 Mar-Apr;97(2):479-83.

PMID:
24830159
2.

Tryptic soy medium is feasible for the in situ preparation of standards containing small defined numbers of microbial cells.

Matsuoka H, Shigetomi T, Funabashi H, Saito M, Igimi S.

J Microbiol Methods. 2013 Apr;93(1):49-51. doi: 10.1016/j.mimet.2013.01.021. Epub 2013 Feb 10.

PMID:
23403310
3.

A comparative study of carboxyfluorescein diacetate and carboxyfluorescein diacetate succinimidyl ester as indicators of bacterial activity.

Hoefel D, Grooby WL, Monis PT, Andrews S, Saint CP.

J Microbiol Methods. 2003 Mar;52(3):379-88.

PMID:
12531507
4.

Production of precise microbiology standards using flow cytometry and freeze drying.

Morgan CA, Bigeni P, Herman N, Gauci M, White PA, Vesey G.

Cytometry A. 2004 Dec;62(2):162-8.

5.
6.

GreenLight Model 960.

Fernandes R, Carey C, Hynes J, Papkovsky D.

J AOAC Int. 2013 Mar-Apr;96(2):369-85.

PMID:
23767363
7.

Development and validation of stable reference materials for food microbiology using Bacillus cereus and Clostridium perfringens spores.

Abdelmassih M, Planchon V, Anceau C, Mahillon J.

J Appl Microbiol. 2011 Jun;110(6):1524-30. doi: 10.1111/j.1365-2672.2011.05007.x. Epub 2011 Apr 12.

8.

Validation of the Soleris NF-TVC method for determination of total viable count in a variety of foods.

Mozola M, Gray RL, Feldpausch J, Alles S, McDougal S, Montei C, Sarver R, Steiner B, Cooper C, Rice J.

J AOAC Int. 2013 Mar-Apr;96(2):399-403.

PMID:
23767366
9.

Alternative microbial methods: An overview and selection criteria.

Jasson V, Jacxsens L, Luning P, Rajkovic A, Uyttendaele M.

Food Microbiol. 2010 Sep;27(6):710-30. doi: 10.1016/j.fm.2010.04.008. Epub 2010 Apr 27. Review.

PMID:
20630313
10.

Improved bacteriological surveillance of haemodialysis fluids: a comparison between Tryptic soy agar and Reasoner's 2A media.

van der Linde K, Lim BT, Rondeel JM, Antonissen LP, de Jong GM.

Nephrol Dial Transplant. 1999 Oct;14(10):2433-7.

PMID:
10528669
11.

A flow cytometric technique for quantification and differentiation of bacteria in bulk tank milk.

Holm C, Mathiasen T, Jespersen L.

J Appl Microbiol. 2004;97(5):935-41.

12.

A new approach to determine the genetic diversity of viable and active bacteria in aquatic ecosystems.

Bernard L, Courties C, Duperray C, Schäfer H, Muyzer G, Lebaron P.

Cytometry. 2001 Apr 1;43(4):314-21.

PMID:
11260599
13.

Potential for broad applications of flow cytometry and fluorescence techniques in microbiological and somatic cell analyses of milk.

Gunasekera TS, Veal DA, Attfield PV.

Int J Food Microbiol. 2003 Aug 25;85(3):269-79.

PMID:
12878385
14.

Recovery of E. coli O157 strains after exposure to acidification at pH 2.

Yoshitomi KJ, Zapata R, Jinneman KC, Weagant SD, Fedio W.

Lett Appl Microbiol. 2012 Jun;54(6):499-503. doi: 10.1111/j.1472-765X.2012.03250.x. Epub 2012 Apr 30.

15.

Simple detection of small amounts of Pseudomonas cells in milk by using a microfluidic device.

Yamaguchi N, Ohba H, Nasu M.

Lett Appl Microbiol. 2006 Dec;43(6):631-6.

17.

Optical forward-scattering for identification of bacteria within microcolonies.

Marcoux PR, Dupoy M, Cuer A, Kodja JL, Lefebvre A, Licari F, Louvet R, Narassiguin A, Mallard F.

Appl Microbiol Biotechnol. 2014 Mar;98(5):2243-54. doi: 10.1007/s00253-013-5495-4. Epub 2014 Jan 12.

PMID:
24413976
19.

Flow cytometry as an auxiliary tool for the selection of probiotic bacteria.

Mudroňová D.

Benef Microbes. 2015;6(5):727-34. doi: 10.3920/BM2014.0145. Epub 2015 Apr 22. Review.

PMID:
25869279
20.

Microbial diagnostic microarray for food- and water-borne pathogens.

Kostić T, Stessl B, Wagner M, Sessitsch A, Bodrossy L.

Microb Biotechnol. 2010 Jul;3(4):444-54. doi: 10.1111/j.1751-7915.2010.00176.x. Epub 2010 May 12.

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