Effect of Cleaning In Place (CIP) on the germination of...
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Effect of Cleaning In Place (CIP) on the germination of Bacillus cereus spores
isolated during Extended Shelf Life Milk processing
Chané Kruger Supervisor: Prof Elna M. Buys
Department of Consumer and Food Sciences
University of Pretoria
51st SASDT Symposium,
Pretoria, South Africa, 24-25 April 2018,
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Extended Shelf Life (ESL) Milk
Bulk raw milk
Standardisation Homogenisation
Bactofugation Cold filling and
aseptic packaging
Pasteurisation 15s @ 73oC
Packaged Extended Shelf Life Milk
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Predominant bacteria in the nozzles of aseptic ESL milk filling machines for isolates (n=80) sampled after CIP over four weeks
Khoza (2015)
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Group 1
Group 2
Derived from Mugadza & Buys, International Dairy Journal, 2017
http://circleofdocs.com/wp-content/uploads/2016/08/RAw-Milk.jpg
http://www.dairy-bottle-packaging-machines.com/our-dairy-filling-technology.html
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70oC
SUPERKLENZ Liquid (0,5%) wash for 10
min
Clean cold water rinse
70oC
CIP ACID (1%) wash for 30
min
Clean cold water rinse
70oC
SUPER-SAN (1%) for 10
min
Standard CIP
Process
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Study Objective
To determine the effect of simulated CIP on
the germination and attachment of Bacillus
cereus spores isolated during Extended Shelf
Life (ESL) milk processing with the aim of
improving the shelf life and safety of ESL
milk.
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• Flow Cytometry
• Growth kinetics
• Biofilm assay
• SEM (stainless steel coupons)
• TEM
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FCM Principles
Damaged, unstained
Intact, unstained
Intact, stained
Damaged, stained
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FCM-derived contour plots of the green fluorescence versus
side scatter intensities of SYTO 9-stained spores of B.
cereus spores following CIP treatment
BC10
Unstained 0,16%
Intact 0,40%
Damaged 98,7%
BC17
Unstained 0,08%
Intact 0,11%
Damaged 98,8%
BC24
Unstained 0,06%
Intact 0,39%
Damaged 98,8%
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Lag phase of untreated and CIP treated B. cereus spore strains (BC10, BC17 & BC24)
Lag phase longer in CIP treated spores BC10 and BC17 survived CIP treatment Strain effect significantly influenced lag phase (p≤0,05)
Strain + CIP treatment was significant with regards to variation
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Germination and growth of untreated B. cereus spore strains (BC10, BC17 & BC24) following CIP treatment
Growth rate was significantly higher in BC10 & BC24 CIP treated spores (p≤0,05)
Strain effect was responsible for variation in growth rate Strain effect + CIP treatment was significant with regards to variation
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Biofilm formation of untreated and CIP treated B. cereus spore strains (BC10, BC17 & BC24) over 24h
Biofilm formation of untreated vs. CIP treated spores significantly different (p≤0,05)
Significant difference between strains with regards to biofilm formation
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Untreated spores (SEM)
BC17 Untreated BC10 Untreated BC24 Untreated
Attachment Attachment
Attachment
Biofilm formation
&EPS
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Untreated spores (TEM)
EX - Intact Exosporium OC - Outer coat IC - Inner coat CX-PCW - Cortex and primordial cell wall IM - Inner membrane and C - Core
BC10 Untreated BC17 Untreated BC24 Untreated
200 nm
EX
OC
IC
CX-PCW
IM
C EX
C
OC
IC
IM
CX-PCW
200 nm
Intact endospore
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Strain BC10 CIP treated
Attachment
Attachment
Damage
SEM SEM
Inner coat
Outer coat
Leaked cell components
Cortex & primordial cell wall complex
200 nm TEM
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Strain BC17 CIP treated
Attachment
Attached Bacillus
cereus spores
Damage SEM SEM
Inner coat
Leaked cell components
Cortex & primordial cell wall complex
Outer coat
Exosporium
Core
Inner membrane
500 nm SEM
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Strain BC24 CIP treated
Attachment Attachment
Damage
Outer coat Inner membrane
SEM SEM
Inner & outer coat
Leaked cell components
Cortex & primordial cell wall complex
Exosporium
Inner membrane
Core
500 nm SEM
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Strain effect?
Derived from Mugadza & Buys, International Dairy Journal, 2017
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Conclusions CIP damaged at least 98% of all spores in all three B. cereus
strains, and 0,1% of spores remained intact following CIP
treatment.
Spores were still capable of germination, regrowth and biofilm
formation following CIP treatment.
Spores were capable of attaching to stainless steel surface after
CIP treatment.
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Acknowledgements