Chemunex has an
extensive list of publications, many arising from collaborative work
with some of the world's leading companies and research institutions.
Some of these
publications in the following subject areas are available on request.
|
Cell
labelling - Fluorogenic Substrates
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| |
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Breeuwer
P, Drocourt J-L, Rombouts F, Abee T. Energy dependent carrier
mediated extrusion of carboxyfluorescein from Saccharomyces
cerevisiae allows rapid assessment of cell viability by flow
cytometry. Appl. Environ. Microbiol. 1994, 60(5): 1467-1472
|
| |
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Breeuwer
P, Drocourt J-L, Rombouts F, Abee T. rapid assessment of yeast
viability by carboxyfluorescein and flow cytometry. Appl. Environ.
Microbiol. 1994; 60: 1467-1472
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| |
|
Breeuwer
P, Drocourt J-L, Bunschoten N, Zwietering M, Rombouts F, Abee
T. Characterisation of uptake and hydrolysis of fluorescein
diacetate and carboxyfluorescein diacetate by intracellular
esterases in Saccharomyces cerevisiae which result in accumulation
of fluorescent product. Appl. Environ. Microbiol. 1995; 61(4):
1614-1619
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| |
|
Breeuwer
P, Drocourt J-L, Rombouts F, Abee T. A novel method for continuous
determination of the intracellular pH in bacteria with the internally
conjugated fluorescent probe 5-carboxyfluorescein succinimydyl
ester. Appl. Environ. Microbiol. 1996; 62(1):178-183
|
| |
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Bruetschy
A, Laurent M, Jacquet R. Use of flow cytometry in oenology to
analyse yeasts. Letters in Appl. Micro. 1994; 18:343-345.
|
| |
| Catala
P, Parthuisot N. Effectiveness of CSE to counterstain particles
and dead bacterial cells with permeabilised membranes: application
to viability assessment in waters. FEMS Microbiology Letters.1999;
178: 219-226 |
| |
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De Groote
J, Vroegrop L, Brailsford MA Control of yeast spoilage VMT 1995;
10: 43-45
|
| |
|
Desnouveaux
R, Lecomte, C De Colombei E, Plessis, MC, Dumain PP, Bloch L,
Fuhrmann B, Valery S. Use of flow cytometry for yeast and mould
detection in process control of fermented milk products. Biotech.
Forum Eur. 1990; 3: 224-229
|
| |
|
Chrzanowski
T H, Crotty RD, Hubbard J G, Welch R P. Applicability of the
fluorescein diacetate method of detecting active bacteria in
fresh water. Microb. Ecol. 1984; 10: 179-185.
|
| |
|
Diaper J
P, and Edwards C. The use of fluorogenic esters to detect viable
bacteria by flow cytometer. J. Applied Bacteriology 1994; 77:
221-228.
|
| |
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Diaper J
P, Tither, K, Edwards C. Rapid assessment of bacterial viability
by flow cytometry. Appl. Microbiol. Bioproducts. 38; 268-272
|
| |
|
Gazenko
SV, Reponen TA, Grinshpun SA, Willeke W Analysis of airborne
actinomyces spores with fluorogenic substrates. Appl. Environ.
Microbiol. 1998; 64: 4410-4415
|
| |
|
Gatley S
Rapid process control with flow cytometry. Food. Technol. Int.
1989
|
| |
|
Gatley S
A new approach to process and quality control Dairy Ind. Int.
1989; 54(3): 43-45
|
| |
|
Kepner R
L, Pratt J R. Use of fluorochromes for direct enumeration of
viable bacteria in environmental samples: past and present.
Microbiological Reviews 1994; 60(4): 641-696.
|
| |
|
LaPlace-Builhe
C, Hahne K, Hunger W, Tirilly Y, Drocourt J-L. Application of
flow cytometry to rapid microbial analysis in food and drink
industries. Biol. Cell 1993; 78: 123-128
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| |
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Lisle JT,
Broadaway, SC, Prescott AM, Pyle BH, Fricker, C, McFeters, GA.
Effects of starvation on physiological activity and chlorine
disinfection resistance in Escherichia coli 0157:H7
|
| |
|
McFeters
G A, Yu F P, Pyle B H, Stewart P S. Physiological assessment
of bacteria using fluorochromes. J. Microbiol. Methods 1995;
21: 1-13.
|
| |
Parthuisot
N, Catala P, Lemarchand K, J.Baudart and Lebaron P. Evaluation
of ChemChrome V6 for bacterial viability assessment in waters.
Journal of Applied Microbiology 2000, 89: 370-380
Available
on request |
| |
|
Porter J,
Deere D, Pickup R, Edwards C. Fluorescent probes and flow cytometry:
New insights into environmental biotechnology. Cytometry 1995;
23: 91-96.
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| Back
to Top |
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ChemScan
RDI - Laser Scanning Cytometry
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Brailsford
MA. Real-time analysis of pharmaceutical water. Microbiology
Europe 1996; 4: 18-20
|
| |
|
Brailsford
MA. Making the switch to real-time microbiological process control.
Manufacturing Chemist. 1997, March
Available
on request
|
| |
|
Brailsford
MA. Profiting from a lack of growth. Pharmaceutical Manufacturing
Review. 1997, October
Available
on request
|
| |
|
Brailsford
MA. Light on Cryptosporidium : Probe-based, real-time
detection and identification of microorganisms in drinking water
using laser-scanning technology. Laboratory News. 1998; March
|
| |
|
Brailsford
MA. A two hour method for the enumeration of microorganisms
in environmental samples. Proceeding from PDA Annual Meeting,
Washington, 9-11 November, 1998.
Available
on request
|
| |
|
Brailsford
MA. Real-time microbial process control. Pharmaceutical Manufacturing
International 1999; April: 103-104
Available
on request
|
| |
|
Brailsford
MA. ChemScanRDI – A two hour method for the enumeration
of microorganisms in environmental samples. Proceeding from
30th R3-Nordic Contamination Control Symposium, Helsinki, May
30-June 2, 1999.
|
| |
|
Brailsford
MA, Jones D. Real-time environmental monitoring procedures.
Pharmaceutical Manufacturing Review 1999; 11(3): 16-17
Available
on request
|
| |
|
Bull, J.
Validation of a new laser scanning method for real time bioburden
testing in the manufacture of health care products. Proceeding
from PDA Annual Meeting, Washington, 9-11 November, 1998.
|
| |
|
Cooper M.
Pharmaceutical and Potable Waters. The Microbiological Update
1997; 15(3):
|
| |
|
Fricker
EJ, Fricker CR. Alternative approaches to the detection of Escherichia
coli and coliforms in water. Microbiology Europe 1996: 4(2):
15-19
|
| |
|
Fricker
CR, Detection of Cryptosporidium parvum using a laser
scanning device to speed up the process. Water conditioning
& Purification 1998: February.
|
| |
|
Fricker
CR. Cryptosporidium screening now achievable within three
hours. Waste & Water Treatment 1998, March.
|
| |
|
Guyomard
S. Validation of a scanning laser system for microbiological
quality control analysis. Pharmaceutical Technology Europe 1997;
Sept
Available
on request
|
| |
|
Haberer
K, Wallner G. Evaluation of the ChemScan system for rapid microbiological
analysis of pharmaceutical water. Proceedings from PDA International
Congress. Basel, February 23-25 1998.
Available
on request
|
| |
|
Haberer
K, Tillman D, Wallner G, Flemming HC Detection of planktonic
and attached micro-organisms in purified water systems : suitability
of methods and their application in the control of water quality.
Proceedings from PDA International Congress. Tokyo, February
22-26 1999.
Available
on request
|
| |
|
Jones D,
Brailsford M, Drocourt J-L. Solid phase, laser scanning cytometer;
a new rapid method for viable cell detection. Pharmacopoeial
Forum 1999; 25(1):
Available
on request
|
| |
|
Lisle JT,
Broadaway, SC, Prescott AM, Pyle BH, Fricker, C, McFeters, GA.
Effects of starvation on physiological activity and chlorine
disinfection resistance in Escherichia coli 0157:H7
|
| |
|
Medema G,
de Savornin-Lohman A, Dumoutier N, Lorthioy A, de Roubin M-R,
Compagnon B, Hambsch B, Pezoldt H, Stanfield G, Whitmore T,
Carrington E. An optimised and standardised test to determine
the presence of the protozoa, Cryptosporidium and Giardia
in water. Proceedings from IAWQ conference, Paris, 19-23 April
1999.
|
| |
|
McFeters
G A, Yu F P, Pyle B H, Stewart P S. Physiological assessment
of bacteria using fluorochromes. J. Microbiol. Methods 1995;
21: 1-13.
|
| |
|
Mignon-Godefoy
K, Guillet, J-G, Butor C. Solid phase cytometry for detection
of rare events. Cytometry 1997; 27: 336-344.
Available
on request
|
| |
| Nabet
P. Investigation on microbial contamination using a two-hour sensitive
analyser for rapid rectification and improved process water quality.
Proceeding from PDA international Congress, Basle, 14-16 February
2000 |
| |
|
Nelis H,
Van Pouke S. Development of selective methodology for the detection
of coliforms and Escherichia coli in water. Proceedings
from ASM 98th General Meeting, Atlanta, May 17-21, 1998
|
| |
| Onadipe
A.O. Rapid detection of microbial contaminants in animal cell
culture processes. Proceeding from PDA international Congress,
Basle, 14-16 February 2000 |
| |
|
Osawa M,
Matsuzaki H, Mizuniwa T, Miwa R, Yabe K. Analysis of bacteria
in ultrapure water systems using fluorescence probe and culture
method. Semiconductor, Pure Water and Chemicals conference.
Santa Clara, March 2-5, 1998.
Available
on request
|
| |
|
Petat E
et al. Alternative methods of microbiological control –
review of major rapid techniques. STP Pharma Pratiques 1996;
6(6): 449-464.
Available
on request
|
| |
Ramond
B, Rolland X, Planchez C, Cornet P, Antoni C, Drocourt J-L. Enumeration
of total Viable microorganims in an Antibiotic Raw Material using
the ChemScan Solid Phase Cytometer. PDA Journal of Pharmaceutical
Science and Technology - July/August 2000; 54 (4): 320-321
Available
on request |
| |
|
Reynolds
D, Fricker EJ, Purdy D, Fricker CR Development of a rapid method
for the enumeration of bacteria in potable water. Water. Sci.
Tech. 1997; 35: 433-436
|
| |
|
Rolland
X, Cornet, P, Drocourt J-L. The ChemScanRDI : A new in process
control tool combining speed with sensitivity in microbial detection.
Biotechnology International 1999; 2: 309-314
Available
on request
|
| |
|
Stanek JE,
Bauer BF, Richmond E. Evaluation of an epifluorescence based
method for the enumeration of microorganisms in pharmaceutical
grade water. Proceedings from PDA Annual Meeting, Philadelphia,
November 18-22, 1996.
|
| |
|
Tricarico
M. Cell culture sterility testing in hours. Pharmaceutical &
Cosmetic Quality 1998; November: 52-53
Available
on request
|
| |
|
Van Pouke
S & Nelis H. Solid phase cytometry- based enzymatic detection
of coliforms in drinking water within 4 hours. Proceedings from
IWSA Specialised conference on rapid microbiological monitoring
methods, Warrington, 23-24 February, 1999.
Available
on request
|
| |
|
Van Pouke
S & Nelis H. A 3.5 hour test for the demonstration of total
coliforms and Escherichia coli in drinking water using
two stage enzymatic detection methodology and solid phase cytometry.
Proceedings from Royal Society of Chemistry, International conference
on rapid detection assays for food and water, York, 15-17th
March, 1999.
Available
on request
|
| |
|
Wallner
G, Tillman D, Haberer K et al. The ChemScan system: a new method
for rapid microbiological testing of water. European Journal
Parenteral Science 1997; 2: 123-126.
Available
on request
|
| |
|
Wallner
G, Tillman D, Haberer K, Evaluation of the ChemScan system for
rapid microbiological analysis of pharmaceutical water. PDA
Journal of Pharmaceutical Science & Technology 1999; 53(2):
70-74
Available
on request
|
| |
|
Zanelli
F, Compagnon B, Joret GC, DeRoubin ME. Enumeration of Cryptosporidium
oocysts from surface water concentrates by laser scanning cytometry.
Proceedings from IAWQ conference, Paris, 19-23 April 1999
|
| |
|
Zeidy N,
Ramond B, Guyomard S. Evaluation of a new rapid method for microbial
analysis. Proceedings from “Vision of the European Pharmacopoeia
in the 21st century – The Dynamics of Quality in Medicins
in Europe.” Conference. Prague, December 1996.
|
| Back
to Top |
|
ChemScan
RDI - Pharmaceutical Water Testing
|
| |
|
Brailsford
MA. Real-time analysis of pharmaceutical water. Microbiology
Europe 1996; 4: 18-20
|
| |
|
Brailsford
MA. Making the switch to real-time microbiological process control.
Manufacturing Chemist. 1997, March
Available
on request
|
| |
|
Brailsford
MA. Profiting from a lack of growth. Pharmaceutical Manufacturing
Review. 1997, October
Available
on request
|
| |
|
Brailsford
MA. Real-time microbial process control. Pharmaceutical Manufacturing
International 1999; April: 103-104
Available
on request
|
| |
|
Cooper M.
Pharmaceutical and Potable Waters. The Microbiological Update
1997; 15(3):
|
| |
| Fellay
R. The qualification of a 2 hour method for the microbial monitoring
of purified water systems and release of OTC products. Proceeding
from PDA international Congress, Basle, 14-16 February 2000 |
| |
Gapp
G, Guyomard S, Nabet p, Scouvart J. Evaluation of the applications
of a sytem for real-time microbial analysis of pharmaceutical
water systems.European Journal of Parenteral Sciences.1999; 4(4):131-136
Available
on request |
| |
Gapp
G, Guoymard S, Nabet P, Scouvart J. Evaluation of the applications
of a system for real-time microbial analysis of pharmaceutical
water systems. European Journal of Parenteral Sciences 1999; 4(4):
131-136.
Available
on request |
| |
|
Guyomard
S. Validation of a scanning laser system for microbiological
quality control analysis. Pharmaceutical Technology Europe 1997;
Sept
|
| |
|
Haberer
K, Wallner G. Evaluation of the ChemScan system for rapid microbiological
analysis of pharmaceutical water. Proceedings from PDA International
Congress. Basel, February 23-25 1998.
Available
on request
|
| |
|
Haberer
K, Tillman D, Wallner G, Flemming HC. Detection of planktonic
and attached micro-organisms in purified water systems : suitability
of methods and their application in the control of water quality.
Proceedings from PDA International Congress. Tokyo, February
22-26 1999.
Available
on request
|
| |
|
Jones D,
Brailsford M, Drocourt J-L. Solid phase, laser scanning cytometer;
a new rapid method for viable cell detection. Pharmacopoeial
Forum 1999; 25(1):
|
| |
|
Stanek JE,
Bauer BF, Richmond E. Evaluation of an epifluorescence based
method for the enumeration of microorganisms in pharmaceutical
grade water. Proceedings from PDA Annual Meeting, Philadelphia,
November 18-22, 1996.
|
| |
|
Wallner
G, Tillman D, Haberer K et al. The ChemScan system: a new method
for rapid microbiological testing of water. European Journal
Parenteral Science 1997; 2: 123-126.
Available
on request
|
| |
|
Wallner
G, Tillman D, Haberer K, Evaluation of the ChemScan system for
rapid microbiological analysis of pharmaceutical water. PDA
Journal of Pharmaceutical Science & Technology 1999; 53(2):
70-74
|
| |
|
Zeidy N,
Ramond B, Guyomard S. Evaluation of a new rapid method for microbial
analysis. Proceedings from “Vision of the European Pharmacopoeia
in the 21st century – The Dynamics of Quality in Medicins
in Europe.” Conference, Prague, December 1996.
|
| Back
to Top |
|
ChemScan
RDI – Environmental Monitoring
|
| |
|
Brailsford
MA. A two hour method for the enumeration of microorganisms
in environmental samples. Proceedings from PDA Annual Meeting,
Washington, 9-11 November, 1998.
Available
on request
|
| |
|
Brailsford
MA. ChemScanRDI – A two hour method for the enumeration
of microorganisms in environmental samples. Proceeding from
30th R3-Nordic Contamination Control Symposium, Helsinki, May
30-June 2, 1999.
|
| |
|
Brailsford
MA, Jones D. Real-time environmental monitoring procedures.
Pharmaceutical Manufacturing Review 1999; 11(3): 16-17
Available
on request
|
| |
|
ChemScan
RDI – Biotechnology Applications
|
| |
|
Rolland
X, Cornet, P, Drocourt J-L. The ChemScanRDI : A new in process
control tool combining speed with sensitivity in microbial detection.
Biotechnology International 1999; 2: 309-314
Available
on request
|
| |
| Onadipe
A.O. Rapid detection of microbial contaminants in animal cell
culture processes. Proceeding from PDA international Congress,
Basle, 14-16 February 2000 |
| |
Onadipe
A.O (Lonza Biologics). Detection of Microbial Contaminationin
Cell Cultures Using a Laser Scanning System. Pharmaceutical Technology
Europe. September 2000, 12 (9): 72-77
Available
on request |
| |
|
Tricarico
M. Cell culture sterility testing in hours. Pharmaceutical &
Cosmetic Quality 1998; November: 52-53
Available
on request
|
| |
| Back
to Top |
|
ChemScan
RDI : Drinking Water Microbiology - Cryptosporidium
|
| |
|
Brailsford
MA. Light on Cryptosporidium : Probe-based, real-time
detection and identification of microorganisms in drinking water
using laser-scanning technology. Laboratory News. 1998; March
Available
on request
|
| |
Brailsford
MA. ChemScan RDI. A platform for detecting various pathogens
in drinking water. Lab News.1999;December
Available
on request |
| |
Brailsford
MA. ChemScan RDI - One microbial analyser- four critical
drinking water tests. Water 21. 2000 (78): 44-46
Available
on request |
| |
|
Fricker
CR, Detection of Cryptosporidium parvum using a laser
scanning device to speed up the process. Water conditioning
& Purification, Feb. 1998
Available
on request
|
| |
|
Fricker
CR. Cryptosporidium screening now achievable within three
hours. Waste & Water Treatment 1998, March
Available
on request
|
| |
|
Medema G,
de Savornin-Lohman A, Dumoutier N, Lorthioy A, de Roubin M-R,
Compagnon B, Hambsch B, Pezoldt H, Stanfield G, Whitmore T,
Carrington E. An optimised and standardised test to determine
the presence of the protozoa, Cryptosporidium and Giardia
in water. Proceedings from IAWQ conference, Paris, 19-23 April
1999.
|
| |
| Reynolds
D.T, Slade RB, Sykes NJ,Jonas A.and Fricker CR. Detection of Cryptosporidium
oocysts in water: techniques for generating precise recovery data.
Journal of applied microbiology.1999; 87: 804-813 |
| |
| Rushton
P, Place B.M and Lightfoot N.F. An evaluation of a laser scanning
device for the detection of Cryptosporidium parvum in treated
water samples. Journal of Applied Microbiology, 2000, 30:303-307
|
| |
|
Zanelli
F, Compagnon B, Joret GC, DeRoubin MR. Enumeration of Cryptosporidium
oocysts from surface water concentrates by laser scanning cytometry.
Proceedings from IAWQ conference, Paris, 19-23 April 1999
Available
on request
|
| |
| Back
to Top |
|
ChemScan
RDI : Drinking Water Microbiology – Escherichia
coli
|
| |
Brailsford
MA. ChemScan RDI. A platform for detecting various pathogens
in drinking water. Lab News.1999;December
Available
on request |
| |
Brailsford
MA. ChemScan RDI - One microbial analyser- four critical
drinking water tests. Water 21. 2000 (78): 44-46
Available
on request |
| |
|
Fricker
EJ, Fricker CR. Alternative approaches to the detection of Escherichia
coli and coliforms in water. Microbiology Europe 1996: 4(2):
15-19
Available
on request
|
| |
|
Nelis H,
Van Pouke S. Development of selective methodology for the detection
of coliforms and Escherichia coli in water. Proceedings
from ASM 98th General Meeting, Atlanta, May 17-21, 1998
Available
on request
|
| |
|
Pyle B,
Broadaway SC, McFeters GA. Sensitive detection of Escherichia
coli 0157:H7 in food and water by immunomagnetic separation
and solid-phase laser cytometry. Appl. Environ. Micro. 1999;
65(5): 1966-1972
|
| |
|
Van Pouke
S & Nelis H. Solid phase cytometry- based enzymatic detection
of coliforms in drinking water within 4 hours. Proceedings from
IWSA Specialised conference on rapid microbiological monitoring
methods, Warrington, 23-24 February, 1999.
|
| |
|
Van Pouke
S & Nelis H. A 3.5 hour test for the demonstration of total
coliforms and Escherichia coli in drinking water using
two stage enzymatic detection methodology and solid phase cytometry.
Proceedings from Royal Society of Chemistry, International conference
on rapid detection assays for food and water, York, 15-17th
March, 1999.
|
| Back
to Top |
|
ChemScan
RDI – Electronic Applications
|
| |
|
Osawa M,
Matsuzaki H, Mizuniwa T, Miwa R, Yabe K. Analysis of bacteria
in ultrapure water systems using fluorescence probe and culture
method. Semiconductor, Pure Water and Chemicals conference.
Santa Clara, March 2-5, 1998.
|
| |
| Patterson
K.M. Bacteria, isolation, identification, and microscopic properties
of biofilms in high-purity water distribution systems. Ultrapure
Water. 1991; 87(6) 18-24 |
| Back
to Top |
|
D-Count
- Flow cytometry
|
| |
|
Banks P,
Rowe D, Betts RP. The rapid detection of yeast spoilage using
the ChemFlow system. Technical Memorandum, Campden Food &
Drink Research Association 1991; 621
|
| |
|
Baumgart
J, Kotter, C. Schnellnachweis von hefen mit der durchflußcytometrie.
Fleischwirtsch 1992: 72(8): 1109-1110
|
| |
|
Brailsford
MA, Gatley S. Rapid analysis of microorganisms using sensitive
optical analysers. Biotechnology International 1992; 2: 186-192
|
| |
|
Brailsford
MA, Gatley S. Rapid analysis of microorganisms using flow cytometry.
Flow cytometry in Microbiology 1993. Ed. Lloyd D: Springer-Verlag,
London: 171-180
|
| |
|
Brailsford
MA, Gatley S. Industrial application of flow cytometry for the
rapid detection of microorganisms. New techniques in food and
beverage microbiology 1993. Eds. Kroll RG, Gilmour A, Sussman
M; Blackwell Scientific Publications, Oxford: 87-99
|
| |
|
Bruetschy
A, Laurent M, Jacquet R. Use of flow cytometry in oenology to
analyse yeasts. Letters in Appl. Micro. 1994; 18:343-345.
|
|
Dasen, A,
Grappin R. Essai de l’appareil ChemFlow. Process 1989:
10: 53-56
|
| |
|
Dumain PP,
Desnouveaux R, Bloch L, Lecomte C, Furhmann B, DeColombel E,
Plessis M-C, Valery S. Use of flow cytometry for yeast and mould
detection in process control of fermented milk products –
A factory study. Biotech. Forum Europe 1990; 3: 224-229
|
| |
|
Gatley S.
Rapid process control with flow cytometry. Food Technology International
1989.
|
| |
|
Gatley S.
Digital microbiology – A radical new approach to the design
and development of a new rapid microbiology system. Biotech
Forum Europe 1990: 6: 478-482.
|
| |
|
Jespersen,
L. Use of flow cytometry for the rapid estimation of intracellular
events in brewing yeast. J. Inst. Brew. 1994: 100: 399-403.
|
| |
|
Jespersen,
L, Lassen, S, Jakobsen, M. Flow cytometric detection of wild
yeast in lager breweries. Int. J. Food Micro. 1993: 17: 321-328.
|
| |
|
Johnson
B. Evaluation of a new system for rapid microbiological detection
in non-sterile pharmaceutical products. European Pharmaceutical
Review 1999; 4(1) : 55-59
|
| |
|
Joosten
HMLJ, Van Dijck WGFM, Spikker, JWM, Traa, HM. Detection of yeasts
in quark by flow cytometry. Milchwissenschaft 1996: 51(4): 202-204.
|
| |
|
Mulard Y.
Flow cytometry : Real time microbiology testing. Food Tech Europe
1995: March: 72-76.
|
| |
|
Pettipher
GL. Preliminary evaluation of flow cytometry for the detection
of yeasts in soft drinks 1991. Letters Appl. Micro.; 12 : 109-112
|
| |
|
Philippe
L. The D-Count digital flow cytometer 1999. Dairy Industry International;
June: 29-31.
Available
on request
|
| |
Philippe
L. Rapid Results-Digital flow cytometry offers rapid, ultra sensitive
microbial analysis.Laboratory News 1999; June
Available
on request |
| |
|
Rees A.
Finding yeast fast. Dairy Industries International 1996; October:
47-49.
|
| |
|
Roy, MD,
Mulard, Y. Rapid microbiology using a laser flow cytometer.
Food Tech Europe 1996; March: 36-40.
|
| Back
to Top |
|
D-Count
– Food & Beverage
|
| |
|
Banks p,
Rowe D, Betts RP. The rapid detection of yeast spoilage using
the ChemFlow system. Technical Memorandum, Campden Food &
Drink Research Association 1991; 621
|
| |
|
Baumgart
J, Kotter, C. Schnellnachweis von hefen mit der durchflußcytometrie.
Fleischwirtsch 1992: 72(8): 1109-1110
|
| |
|
Brailsford
MA, Gatley S. Rapid analysis of microorganisms using sensitive
optical analysers. Biotechnology International 1992; 2: 186-192
|
| |
|
Brailsford
MA, Gatley S. Rapid analysis of microorganisms using flow cytometry.
Flow cytometry in Microbiology 1993. Ed. Lloyd D: Springer-Verlag,
London: 171-180
|
| |
|
Brailsford
MA, Gatley S. Industrial application of flow cytometry for the
rapid detection of microorganisms. New techniques in food and
beverage microbiology 1993. Eds. Kroll RG, Gilmour A, Sussman
M; Blackwell Scientific Publications, Oxford: 87-99
|
| |
|
Dumain PP,
Desnouveaux R, Bloch L, Lecomte C, Furhmann B, DeColombel E,
Plessis M-C, Valery S. Use of flow cytometry for yeast and mould
detection in process control of fermented milk products –
A factory study. Biotech. Forum Europe 1990; 3: 224-229
|
| |
|
Gatley S.
Rapid process control with flow cytometry. Food Technology International
1989.
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