Antibiotic Resistance

Question 1

Which 2 mechanisms are used in identification of antibiotic resistance?

Answer 1

1. antibiotic sensitivity testing
2. detection of antibiotic resistance genes

Question 2

What is the background behind how antibiotic sensitivity testing works?

Answer 2

• try to grow the organism in the presence of an antibiotic
• if it grows in the presence of a high concentration (high MIC), it is resistant
• if it is killed at a low concentration (low MIC) it is sensitive
• the lower the MIC, the more sensitive the organism

Question 3

What are you actually identifiying through antibiotic sensitivity testing?

Answer 3

you are looking at the phenotypic characteristics of the organism and whether it is sensitive to antibiotics

the phenotype is either resistant or sensitive

the phenotype is determined by the presence of resistance genes

Question 4

What is show here?

Answer 4

microtitre plate

this is used in susceptibility testing to calculate MIC

Question 6

How is the microtitre plate organised for susceptibility testing?

Answer 6

6 different antibiotics are added to the plate, along with 2 controls

1. no antibiotic
2. no bacteria

doubling dilutions are performed

the starting concentration is 32 micrograms/ml and this is halfed each time until you reach 0.015 mcg/ml

Question 7

How much bacteria is added to each of the wells in susceptibility testing?

Answer 7

the same amount of microorganism from liquid culture is added to each of the wells, despite the concentration of antibiotic

the plate is then incubated for 24 hours

Question 8

What is shown by these results?

Answer 8

where the organism has grown, the concentration of the antibiotic in that well is insufficiently high to inhibit the growth of organism in that well

e.g. for antibiotic 1, the MIC (minimum inhibitory concentration) is 0.125 mg/L

Question 9

What does the MIC show about the resistance of the bacterium?

Answer 9

MIC is the minimum concentration at which growth of the bacteria is inhibited

Question 10

How can you determine whether an organism is sensitive or resistant from a microtitre plate?

Answer 10

you need to compare the MIC to the break point value

MIC doesn’t show the availability of the antibiotic within the human body

the breakpoint is the MIC value which has been determined as sufficiently low, that if the MIC is this value or less, then the organism is sensitive

Question 11

What does the result of the susceptibility test show?

Answer 11

it shows whether the bacteria causing an infection is likely to be sensitive or resistant to an antibiotic

this doesn’t mean that the patient will respond to an antibiotic to which the organism is sensitive

it just means that they are more likely to respond

Question 12

What are the stages involved in disk sensitivity testing?

Answer 12

1. add organism
2. add antibiotics
3. incubate
4. compare zone sizes against published breakpoint zone sizes
5. interpret and report results

Question 14

How does a disk sensitivity test work?

Answer 14

the organism is spread evenly over the surface of the agar plate

antibiotics in the form of filter paper discs that are impregnated with known concentrations of 6 different antibiotics are placed on the surface

the antibiotic diffuses into the agar and the agar plate is incubated

Question 15

What is meant by the zone of inhibition?

Answer 15

it is the area around the antibiotic disc where the bacteria has not grown

if the zone of inhibition is large then the antibiotic has diffused a long way out and is still killing the organism

this bacterium is senstive to the antibiotic

Question 17

What is meant by breakpoints in disk sensitivity testing?

Answer 17

it refers to the sizes of the zone of inhibition

the size of the zone must be measured to determine whether the antibiotic is sensitive or resistant

Question 18

Which test is used in detection of antibiotic resistance genes?

Answer 18

nucleic acid amplification tests

e.g. polymerase chain reaction

Question 19

Which samples are typically used in detection of antibiotic resistance genes?

Answer 19

it can be applied to any sample type

1. nose / skin is used in MRSA testing
2. rectal / faecal is used to detect carbapenemase producing Enterobacteriales (CPE)

Question 20

What are the advantages and disadvantages to detection of antibiotic resistance genes?

Answer 20

advantages:

• sensitive and fast

disadvantages:

• expensive
• presence of a gene doesn’t always correlate with resistance
• you can only test for resistance genes that are already known, but a new one could be present

Question 21

What is meant by innate resistance mechanisms?

Answer 21

this is a fundamental property of the bacterium / antibiotic combination

it usually relates to the permeability / entry of the antibiotic into the cell

Question 22

What are examples of innate resistance mechanisms?

Answer 22

gram-negatives:

• glycopeptides
• daptomycin

gram-positives:

• aztreonam
• colistin

anaerobes:

• aminoglycosides

streptococci:

• aminoglycosides

the antibiotic will never work against the organism no matter how it is used

Question 23

Why can aminoglycosides not be used against anaerobes?

Answer 23

the process of taking an aminoglycoside into the cell is an aerobic process

anaerobic bacteria cannot take the aminoglycoside into the cell, so it cannot exert its effects

Question 24

What is meant by an acquired resistance mechanism?

Answer 24

this is the acquisition of a gene that encodes an antibiotic resistance mechanism

it can be a new mutation or acquired through horizontal transfer

Question 25

What are the most common acquired resistance mechanisms?

Answer 25

the new gene usually codes for an antibiotic-modifying enzyme or a target alteration

Question 26

What are the 5 ways in which a bacterium can become resistant to an antibiotic?

Answer 26

1. absent target
2. decreased permeability
3. target modification
4. enzymatic degradation
5. drug efflux

Question 27

What is meant by “absent target” as a mechanism of resistance?

Answer 27

this is an innate mechanism

there is no target for the antibacterial to bind to, so it cannot exert an effect

e.g. treating a virus or fungus with an antibacterial

Question 28

What is meant by “decreased permeability” as a mechanism of resistance?

Answer 28

the antibacterial agent must be able to enter the cell in order to exert an effect

organisms can have decreased permeability to prevent the antibiotic from entering the cell

this can be innate or acquired (e.g. developing thicker cell walls)

Question 29

What are 2 examples of decreased permeability as a mechanism of resistance?

Answer 29

vancomycin & gram-negative bacteria:

• gram-negative bacteria have an outer membrane that is impermeable to vancomycin

gentamicin & anaerobic organisms:

• uptake of aminoglycosides requires an O₂ dependent active transport mechanism

Question 30

What is the main example of ‘target modification’ as a mechanism of resistance?

Answer 30

flucloxacillin & MRSA

the altered penicillin-binding protein does not bind to B-lactams

if the carboxypeptidases and transpeptidases (PBPs) are altered, then antibiotics can no longer bind to them but they can maintain their functions

Question 31

What are other examples of target modification as a mechanism of resistance?

Answer 31

vancomycin and VRE:

• altered peptide sequence in gram-positive peptidoglycan
• this reduces the binding of vancomycin

trimethoprim & gram-negative bacilli:

• mutations in dihydrofolate reductase gene

Question 32

What is meant by “enzymatic degradation” as a mechanism of antimicrobial resistance?

Answer 32

the antibiotic enters the cell, an enzyme binds to it and breaks it down

the antibiotic cannot have any effect on killing the cell

Question 33

What are examples of enzymes that are produced that can break down antibiotics?

Answer 33

B-lactamases:

• these will break down penicillins and cephalosporins
• includes penicillinase, extended spectrum B-lactamases (ESBL) and carbapenemases
• other enzymes inactivate aminoglycosides and chloramphenicol

Question 34

What is meant by an extended-spectrum B-lactamase (ESBL)?

Answer 34

these are capable of breaking down a large range of B-lactam antibiotics

Question 35

What is meant by “drug efflux” as a mechanism of resistance?

Answer 35

the efflux pump will actively pump the antimicrobial out of the cell so it cannot have any effect

these are especially present in Gram-negative organisms

Question 36

How are most resistance mechanisms encoded?

Answer 36

many resistance mechanisms are encoded by single genes

e.g. antibiotic-modifying enzymes

Resistance genes are encoded in plasmids

these are circular DNA sequences that are transmitted within and between species

Question 37

What is meant by horizontal transfer?

What enables this process?

Answer 37

this is enabled by transposons and integrons

DNA sequences are designed to be transferred from plasmid to plasmid and/or from plasmid to chromosome

often contain cassettes with multiple resistance genes

Question 38

What is meant by vertical transfer as a mechanism of spreading resistance?

Answer 38

chromosomal or plasmid-borne resistance genes transferred to daughter cells on bacterial cell division

Question 39

What are the stages involved in the development of resistance?

Answer 39

1. bacteria are constantly subject to spontaneous gene mutations
2. mutations that confer a survival advantage favour the growth and propagation of the mutant strain
3. if the organism is growing in the presence of a sub-inhibitory concentration of antibiotics the development of a resistance gene will confer a survival advantage
4. the resistant mutation will have a survival advantage and out-compete other strains

Question 40

How are resistant bacteria established within the human microbiome?

Answer 40

resistant bacteria gain access to the human microbiome

once established in the microbiome, resistance genes can be transferred between bacteria of different species

the result is a human microbiome that contains a mixture of sensitive and resistant bacteria

Question 41

What happens if the human microbiome containing sensitive and resistant bacteria is exposed to antibiotics?

Answer 41

the sensitive bacterial strains will die out and strains carrying resistance genes will become dominant strains

subsequent endogenous infection is more likely to be caused by antibiotic resistant organisms

Question 42

What are the 2 distinct ways in which antibiotic resistance can arise in a patient?

Which methods are in place to prevent this?

Answer 42

1. exposure to antibiotics
2. transmission of resistant organisms

the methods used to prevent antibiotic resistance are:

1. minimising use of antibiotics (“antibiotic stewardship”)
2. effective infection prevention and control

Question 43

What is the positive aspect to antibiotic resistance?

Answer 43

resistance mutations usually affect vital bacterial cell functions

e.g. cell wall construction, DNA synthesis

antibiotic resistant organisms are often less fit than the strains that do not carry resistance genes

if antibiotic exposure is ceased, the resistant organisms are often out-competed and replaced with sensitive organisms

Question 44

What are the practical consequences of antibiotic resistance?

Answer 44

bacterial infections become resistant to antibiotics that are traditionally used to treat them

Question 45

What are the implications of resistance on empiric therapy?

Answer 45

there is a risk of undertreatment if a traditional antibiotic is used and treatment is not changed in accordance to developing resistance

there is a risk of excessively broad spectrum treatment if the risk of resistance is taken into account