Post antibiotic-sub-mic-effects
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Transcript of Post antibiotic-sub-mic-effects
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The postantibiotic and sub-MICeffects in vitro and in vivo
The postantibiotic and sub-MICeffects in vitro and in vivo
Inga Odenholt, MD., Ph.D.Department of Infectious Diseases
University hospitalMalmöSweden
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The postantibiotic effect in vitroThe postantibiotic effect in vitro
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Postantibiotic effect;PAE in vitro
Postantibiotic effect;PAE in vitro
Definition:• Suppression of bacterial growth after short
exposure of organisms to antibioticsPAE=T-CT= The time required for the exposed culture toincrease one log10 above the count observedimmediately after drug removalC= The corresponding time for the unexposedcontrol
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Postantibiotic effect
3
4
5
6
7
8
9
0 2 4 6 8 10 12 h
log1
0 cf
u/m
L
Control
PAE
2.3 h
Odenholt et al. SJID, 1988
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Postantibiotic effectin vitro
Postantibiotic effectin vitro
The PAE is dependent on:• Type of antibiotic• Type of bacterial species• Concentration of the antibiotic• Duration of exposure• Size of the inoculum• Growth phase of the organism
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Antibiotics hours• Penicillins 1-2• Cephalosporins 1-2• Carbapenems 1-2• Quinolones 1-3• Proteinsythesis inhibitors 3-5
PAE against Gram-positive bacteria
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PAE against Gram-negative bacteriaPAE against Gram-negative bacteria
Antibiotics hours• Penicillins 0• Cephalosporins 0• Carbapenems (1)• Quinolones 1-3• Proteinsythesis inhibitors 3-8• Aminoglycosides 2-4
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PAE against P. aeruginosaPAE against P. aeruginosa
Antibiotics hours• Penicillins 0• Cephalosporins 0• Carbapenems 1-2• Quinolones 1-2• Aminoglycosides 2-3
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The PAE at different concentrations against E. coli
0
1
2
3
4
5
6
7
8
0,5 1 2 4 8 16 32xMIC
hour
s RifampicinTetracyklineCefamandole
Craig & Gudmundsson, 1991
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PAE at different exposure times against S. aureus
0
1
2
3
4
5
6
0 2 4 6 8 10 12hours
PAE
(h) Penicillin
Erythromycin
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Effect on inoculum size on the PAE
0
20
40
60
80
100
120
1 2
Min
10 9 cfu/mL10 7 cfu/mL10 5 cfu/mL10 3 cfu/mL
Ciprofloxacin Tobramycin
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PAE in vitroMethods
PAE in vitroMethods
1. Viable counts
Methodological pitfalls
• may overestimate killing
• negative PAEs are common with ß-lactams and gram-negatives due to forming of filaments
• similar inocula of the control and the pre- exposed culture are desirable
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Postantibiotic effect
3
4
5
6
7
8
9
0 2 4 6 8 10 12 h
log1
0 cf
u/m
L
Control
PAE
2.3 h
Odenholt et al. SJID, 1988
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PAE in vitroMethods
PAE in vitroMethods
2. Optical density
Methodological pitfalls• killing cannot be measured due to a detection limit
of 106 cfu/ml
• control curves at different inocula and viablecounts after drug removal are necessary to beperformed to ensure that PAE culture and controlare at the same inoculum
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PAE in vitroMethods
PAE in vitroMethods
3. ATP measurement
Methodological pitfalls
• bactericidal activity is underestimated due to deadbut intact (not lysed) bacteria still containingintracellular ATP
• PAE is overestimated due to falsely elevated ATPcontent
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PAE measured with ATP
-11
-10
-9
-8
-7
0 1 2 3 4 5 6 7 8 9 h
log1
0 M
bac
teri
al A
TP
ControlPAEDilution
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PAE in vitro Methods
PAE in vitro Methods
4. Morphology• Phase contrast microscopy– the time it takes for the bacteria to revert to 90%
bacilli
5. 3H-thymidine incorporation
• Ultrastructural changes - the changes in structure correlates well with the PAE measured with viable counting
-correlates well with the PAE measured with viable counting
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Control related effectiveregrowth time (CERT)
Control related effectiveregrowth time (CERT)
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CERTCERT
• DefinitionCERT=T-CT=the time required for resumption oflogarithmic growth and increase of onelog10 to occur over the preexposed inoculumof the test tube
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Calculation of CERT with bioluminescence
-2
-1
0
1
2
3
-2 -1 0 1 2 3 4 5 6 7h
ATP
log1
0 M
Control
PAE
1.3 h
6 h
PAE=4,7 h
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Calculation of CERT using viable counts
-4
-3
-2
-1
0
1
2
3
-2 -1 0 1 2 3 4 5 6 7h
log1
0 cf
u/m
L
ControlPAE
1.6 h
1.3 h
PAE=-0.3 h
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The postantibiotic effect in vivoThe postantibiotic effect in vivo
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Postantibiotic effect in vivoPostantibiotic effect in vivoDefinitionPAE= T-C-M
• T= the time required for the counts of cfu in thighsof treated mice to increase one log10 above thecount closest to but not less than the time M
• C= the time required for the counts of cfu in thighsof untreated mice to increase one log10 above thecount at time zero
• M= the time serum concentration exceeds the MIC
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The postantibiotic effect of gentamicin against K. pneumoniae in vivo
0
1
2
3
4
5
6
7
8
9
10
-2 0 2 4 6 8 10 12 14 h
log1
0 cf
u/m
L
Control
PAE
T>MIC
Fantin et al. JAC, 1990
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PAE in vivoPAE in vivo• Observed in several animal models
• In vitro data are predictive of in vivo resultsexcept that in vivo PAE are usually longer due tothe effect of sub-MICs and/or the effect ofneutrophils
• The major unexplained discordant results are forß-lactams and streptococci
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PAE in vivoAnimal modelsPAE in vivo
Animal modelsAnimal models•Thigh infections in mice
•Pneumonia model in mice
•Infected treads in mice
•Infected tissue cages in rabbits
•Meningitis model in rabbits
•Endocarditis model in rats
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Mechanisms of PAEMechanisms of PAE
• β-lactam antibiotics.At least for S. pyogenes and penicillinit has been shown that PAE stands forthe time it takes for the bacteria toresynthesize new PBPs
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Mechanisms of PAEMechanisms of PAE
• Erythromycin andclarithromycin:50S ribosomal subunits were reducedduring 90 min and protein synthesisduring 4 h (PAE) due to prolongedbinding of the antibiotics to 50S.
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Mechanisms of PAEMechanisms of PAE• Aminoglycosides:
Binding of sublethal amounts of drug enough todisrupt DNA, RNA and protein synthesis. Thetime it takes to resynthesize these proteins.
With a half-life of >2.5 h, the PAE disappears,reflecting a sufficient time for the repairmechanism to be restored.
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The postantibiotic sub-MICeffect in vitro
The postantibiotic sub-MICeffect in vitro
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Postantibiotic sub-MICeffect; PA SME
Postantibiotic sub-MICeffect; PA SME
Definition• The effect of subinhibitory antibiotic
concentrations on bacteria previously exposed tosuprainhibitory concentrations
PA SME= TPA-C• TPA=the time it takes for the cultures previously
exposed to antibiotics and thereafter to sub-MICsto increase by one log10 above the counts observedimmediately after washing.
• C=corresponding time for the unexposed control
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PA SME of telithromycin against H. influenzae
1
2
3
4
5
6
7
8
9
10
0 3 6 9 12 15 18 21 24 h
log1
0 cf
u/m
L
PAE0.1xMIC0.2xMIC0.3xMICControl
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The postantibiotic sub-MICeffect in vivo
The postantibiotic sub-MICeffect in vivo
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PAE ( PASME) in vivo of amikacin against K.pneumoniae in a thigh-infection model in
mice
PAE ( PASME) in vivo of amikacin against K.pneumoniae in a thigh-infection model in
mice
PAE• Normal mice (half-life 19 min) 5.5 h
• Uremic mice (half-life 98 min) 14.6 h
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The PAE and PA SME of piperacillin against S. aureus in vivo
4,00
4,50
5,00
5,50
6,00
6,50
7,00
7,50
8,00
8,50
9,00
-2 0 2 4 6 8 10h
log1
0 cf
u/m
L
ControlPAEPA SME
Penicillinase
T>MIC
Oshida et al. JAC, 1990
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Post-MIC effect (PME)Post-MIC effect (PME)
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Post-MIC effect; PMEPost-MIC effect; PMEDefinition
• The effect of sub-MICs on bacteria previouslyexposed to a constant decreasing antibioticconcentration
PME=Tpme-C• Tpme= The time for the counts in cfu of the
exposed culture to increase one log10 above thecount observed at the MIC level
• C= the time for an unexposed control to increaseone log10
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The post-MIC effect of benzylpenicillin against S. pneumoniae (PcR)
1
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5
6
7
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9
10
0 2 4 6 8 10 12 14 16 18 20 22 24 h
log1
0 cf
u/m
L
10mg/l100 mg/lControl
MIC
MIC
PME at 10 mg/l 12.9-2.3= 10.6
PME at 100 mg/l 7.5-2.3= 5.2
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Mechanism of PA SME?Mechanism of PA SME?• The PAE of ß-lactam antibiotics seems to
represent the time necessary to synthesizenew PBPs. When bacteria in the PA-phaseare exposed to sub-MICs, most PBPs arestill inactivated and only a small amount ofthe drug is needed to prolong the inhibitionof cell multiplication until a critical numberof free PBPs are once more available
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Postantibiotic leucocyteenhancement
Postantibiotic leucocyteenhancement
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Postantibiotic leucocyteenhancement; PALE
Postantibiotic leucocyteenhancement; PALE
• Bacteria pretreated with antibiotics for abrief period of time show increasedsusceptibility to intracellular killing andphagocytosis
• In general, antibiotics that produce thelongest PAEs exhibit maximal PALEs
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Sub-MIC effectsSub-MIC effects
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The SME of P&G kinolon against S. pneumoniae
2
3
4
5
6
7
8
9
0 3 6 9 12 15 18 21 24h
log1
0 cf
u/m
L
Control0.1xMIC0.2xMIC0.3xMIC
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Sub-MIC effects; SMESub-MIC effects; SMEDefinition• The effect of subinhibitory antibiotic
concentrations on bacteria not previouslyexposed to suprainhibitory concentrations SME= Ts-C•Ts=the time it takes for the cultures exposed to sub-MICs to increase by one log10 above the counts observed immediately after washing•C=corresponding time for the unexposed control
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Sub-MIC effectsSub-MIC effects• The minimum antibiotic concentrations that
produces a structural change in bacteria seenby light or electron microscopy
• The minimum antibiotic concentration thatproduces a one log10 decrease in the bacterialpopulation compared to the control
• Loss or change of bacterial toxins
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Sub-MIC effectsSub-MIC effects
• Loss of surface antigens resulting indecreased adhesion
• Increased rates of phagocytic ingestionand killing
• Increased chemotaxsis and opsonization
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Mechanism of sub-MICeffects
Mechanism of sub-MICeffects
• SME probably tests the distribution ofantibiotic susceptibility in the bacterialpopulation, in which there aresubpopulations that are inhibited byconcentrations less than the MIC. TheSME would therefore represent the timeit takes for the population with thehigher MIC to become dominant
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ImplicationsImplications
• The combined effects of supra- and subinhibitoryconcentrations seem to be more important fordosing regimens then PAE itself.
• A long PA SME/PME indicate that longer dosingintervals may be used even for antibiotics, whichare dependent on the T>MIC for efficacy