Antimicrobials

Question 1

What can antimicrobials be classified into?

Answer 1

Antibacterials
Antifungals
Antivirals
Antiprotozoals

Question 2

How can antibacterials be classified?

Answer 2

Bactericidal or bacteriostatic
Broad or narrow
Target site
Chemical structure

Question 3

What do bactericidal antibacterials do?

Answer 3

Kill bacteria

Question 4

What do bacteriostatic antibacterials do?

Answer 4

Mainly inhibit

Question 5

What does the target site of an antibacterial depend on?

Answer 5

The mechanism of action

Question 6

What are the ideal features of an antimicrobial agent?

Answer 6

Selectively toxic
Few adverse effects
Reach site of infection
Oral and IV formulation
Long-half life
No interference with other drugs

Question 7

Why should an antimicrobial be selectively toxic?

Answer 7

So it is minimally toxic

Question 8

Why should an antimicrobial have a long half life?

Answer 8

Allows for infrequent dosing

Question 9

What are the classes of mechanism of action of antibacterials?

Answer 9

Affect cell wall synthesis
Affect protein synthesis
Affect cell membrane function
Affect nucleic acid synthesis

Question 10

Give two examples of classes of antimicrobials that affect cell wall synthesis

Answer 10

Beta-lactams

Glycopeptides

Question 11

Give three examples of classes of antimicrobials that affect protein synthesis

Answer 11

Tetracyclines
Aminoglycosides
Macrolides

Question 12

Give an example of a class of antimicrobial that affects cell membrane function?

Answer 12

Polymixins

Question 13

Give an example of a polymixin

Answer 13

Colistin

Question 14

Give an example of a class of antimicrobial that affects nucleic acid synthesis

Answer 14

Quinolones

Question 15

Give two examples of quinolones

Answer 15

Trimethoprim

Rifampicin

Question 16

What are the most important classes of antibacterials?

Answer 16

Those that affect cell wall synthesis and those that interfere with protein synthesis

Question 17

What class of antibacterial is penicillin?

Answer 17

Beta-lactam

Question 18

What is penicillin binding protein?

Answer 18

A bacterial protein that physiologically cross-links the cell walls in bacteria

Question 19

What is the mechanism of action of penicillin?

Answer 19

It binds to penicillin binding protein and inhibits it from cross-link the cell wall

Question 20

What class of antimicrobial is vancomycin?

Answer 20

Glycopeptide

Question 21

What is the mechanism of action of vancomycin?

Answer 21

It sits on the cross-links of the forming cell wall and stops penicillin binding protein from attaching, preventing cross-links from being attached to each other by the cell wall cross-linking enzyme

Question 22

What class of antimicrobial are fluoroquinolones?

Answer 22

Quinolone

Question 23

What is the mechanism of action of fluoroquinolones?

Answer 23

Interferes with the action of DNA gyrase during bacterial growth

Question 24

What does DNA gyrase do?

Answer 24

Physiologically catalyses the supercoiling of DNA

Question 25

How do fluoroquinolones interfere with the action of DNA gyrase?

Answer 25

Binds to both the enzyme and DNA to form a ternary (three molecule) complex, inhibiting the rejoining step and thus causes cell death

Question 26

What are the mechanisms of antimicrobial resistance?

Answer 26

Drug inactivating enzymes
Altered target
Altered uptake

Question 27

Give two examples of antimicrobials affected by drug inactivating enzymes

Answer 27

Beta-lactamases

Aminoglycosides

Question 28

What happens in the altered target mechanism of antimicrobial resistance?

Answer 28

Target enzyme has a lowered affinity for antibacterial

Question 29

Give three examples of antimicrobials affected by the altered target mechanism of resistance

Answer 29

Methicillin
Macrolides
Trimethoprim

Question 30

What is caused by antibiotic resistance to methicillin?

Answer 30

MRSA

Question 31

How can altered uptake be achieved in antibiotic resistance?

Answer 31

Decreased permeability

Increased efflux

Question 32

Give an example of an antimicrobial affected by the decreased permeability mechanism of resistance

Answer 32

Beta-lactams

Question 33

Give an example of an antimicrobial affected by the increased efflux mechanism of resistance

Answer 33

Tetracyclines

Question 34

How can antibiotic resistance be genetically obtained?

Answer 34

Chromosomal gene mutation

Horizontal gene transfer

Question 35

How does a chromosomal gene mutation result in antimicrobial resistance?

Answer 35

A chromosome mutates to contain a gene that confers resistance.
An antibiotic is then applied and the resistant gene is selected for, as only the resistant bacteria will survive.
The surviving bacteria can then replicate to produce large numbers of bacteria the now carry the mutated resistance gene

Question 36

What can antibiotic resistance genes be carried on?

Answer 36

Chromosomes
Plasmids
Transposons

Question 37

How can antibiotic resistance genes be transferred?

Answer 37

Conjugation
Transduction
Transformation

Question 38

How does antimicrobial resistance transfer by conjugation?

Answer 38

Resistant cell carries the gene on a plasmid or transposon that passes it on to another cell via pili

Question 39

How does antimicrobial resistance transfer by transduction?

Answer 39

Resistant cell is infected by bacteriophage virus.
During replication of bacteriophages within resistant cell, bacterial DNA containing resistant gene is packaged into one of the phages
The bacteriophage then goes on to transfer the resistant gene to a non-resistant cell that incorporates it into its genes via recombination

Question 40

How does antimicrobial resistance transfer by transformation?

Answer 40

Resistant cell carries the gene on a chromosome of plasmid
The resistant cell dies, and releases its DNA
The free DNA is picked up by the competent non-resistant cell, that has now acquired resistance

Question 41

What happens once antimicrobial resistant is acquired by another cell?

Answer 41

It can go on to replicate so that it’s off-spring now possess the resistance gene

Question 42

How can antibiotic activity be measured?

Answer 42

Disc sensitivity tests

Minimum inhibitory concentration

Question 43

What happens in disc sensitivity tests?

Answer 43

Discs of antimicrobials are placed in a petri-dish containing clear agar, where a culture of bacteria is to be grown

Question 44

How are the results of a disc sensitivity test interpreted?

Answer 44

The size of the clear agar around each disc correlates with its effectiveness

Question 45

What happens in a minimum inhibitory concentration test?

Answer 45

There are two control test tubes, one with no antibacterials and bacteria, and one with no antibacterials and no bacteria.
The concentration of antibacterial is halved each test tube, and observe to see when no bacterial growth is observed- when the broth is not turbid

Question 46

What are the types of beta-lactams?

Answer 46

Penicillins
Cephalosporins
Carbapenums
Monobactams

Question 47

Give 5 examples of penicillins

Answer 47

Benzylpenicillin
Amoxicillin 
Flucloxacillin 
Co-amoxiclav
Tazocin

Question 48

What is co-amoxiclav?

Answer 48

Amox and clavulanate

Question 49

What is tazocin?

Answer 49

Piperacillin + tazobactam

Question 50

Give an example of a cephalosporin?

Answer 50

Ceftriaxone

Question 51

Give an example of a carbapenum

Answer 51

Meropenum

Question 52

Give an example of a monobactam

Answer 52

Aztreonam

Question 53

What is penicillin mainly active against?

Answer 53

Streptococci

Question 54

What is amoxicillin active against?

Answer 54

Gram +ve, some gram -ve

Question 55

What is flucloxacillin active against?

Answer 55

Staphylococci and streptococci

Question 56

Give two beta-lactamase inhibitor combinations

Answer 56

Co-amoxiclav

Tazocin

Question 57

What is co-amoxiclav active against?

Answer 57

Gram +ve
Anaerobes
More gram -ve than other penicillins

Question 58

What is Tazocin active against?

Answer 58

Same as co-amoxiclav, and even more gram negative, including pseudomonas

Question 59

How are cephalosporins organised?

Answer 59

Into generations

Question 60

How do each generation of cephalosporin differ?

Answer 60

Each generation has increased activity against gram -ve and decreased activity against gram +ve

Question 61

What is the advantage of cephalosporins over penicillin?

Answer 61

More broad spectrum drug

Question 62

What is the disadvantage of cephalosporins over penicillins?

Answer 62

No anaerobes activity

Question 63

Where does ceftriaxone have good activity?

Answer 63

In the CSF

Question 64

What are there concerns over regarding cephalosporins?

Answer 64

Association with C. Difficile

Question 65

What are the advantages of meropenum?

Answer 65

Very broad spectrum, including anaerobes
Active against most Gram -ve
Generally safe in penicillin allergy

Question 66

When are meropenum not safe in penicillin allergy?

Answer 66

Anaphylaxis

Question 67

What is vancomycin active against?

Answer 67

Most gram +ve

Question 68

What is the resistance situation regarding vancomycin?

Answer 68

Some enterococci are resistant

Resistance in staphs is rare

Question 69

What is the problem with vancomycin?

Answer 69

Not absorbed

Therapeutic drug monitoring

Question 70

When is vancomycin given orally?

Answer 70

C. Difficle only

Question 71

Why is therapeutic drug monitoring required for vancomycin?

Answer 71

Narrow therapeutic window

Question 72

What is the activity of teicoplanin similar to?

Answer 72

Vancomycin

Question 73

What is the advantage of teicoplanin over vancomycin?

Answer 73

Easier to administer

Question 74

What are the similarities between tetracyclines and doxycycline?

Answer 74

Similar spectrum

Oral only

Question 75

Where are tetracycline and doxycycline used?

Answer 75

Broad-spectrum, but specific use in penicillin allergy, usually from gram +ve
Atypical pathogens in pneumonia
Chlamydia and some protozoa

Question 76

Who shouldn’t tetracycline and doxycycline be given to?

Answer 76

Children under 12 years

Question 77

Why shouldn’t tetracycline and doxycycline be given to children under 12 years?

Answer 77

Stains teeth and bones

Question 78

What is the most common aminoglycoside?

Answer 78

Gentamicin

Question 79

What is gentamicin active against?

Answer 79

Profound activity against gram negatives

Question 80

Where does gentamycin have good activity?

Answer 80

In the blood and urine

Question 81

What is the problem with gentamicin?

Answer 81

Potentially nephrotoxic/ototoxic

Question 82

What is required with gentamicin?

Answer 82

Therapeutic drug monitoring

Question 83

What is gentamicin generally reserved for?

Answer 83

Severe gram -ve sepsi

Question 84

Give two macrolides

Answer 84

Erythromycin

Clarithromycin

Question 85

What is good about erythromycin?

Answer 85

Well distributed, including intracellular penetration

Question 86

Where is erythromycin used?

Answer 86

Alternative to penicillin for mild gram +ve infections

Active against atypical respiratory pathogens

Question 87

What is the most common example of quinolone?

Answer 87

Ciprofloxacin

Question 88

What is the mechanism of action of ciprofloxacin?

Answer 88

Inhibit DNA gyrase

Question 89

What is ciprofloxacin active against?

Answer 89

Very active against atypical pathogens

Question 90

What is the problem with ciprofloxacin?

Answer 90

Increasing resistance

Risk of C. Difficile

Question 91

What is the mechanism of action of trimethoprim and sulphonamides?

Answer 91

Inhibitors of folic acid synthesis

Question 92

When is trimethoprim used alone in the UK?

Answer 92

UTI

Question 93

What is co-trimoxazole?

Answer 93

Sulphamethoxazole and trimethoprim

Question 94

What is co-trimoxazole used for?

Answer 94

Treat PCP

Has activity against malaria

Question 95

What are the classes of antifungals?

Answer 95

Azoles

Polyenes

Question 96

What are azoles active against?

Answer 96

Yeasts, and sometimes molds

Question 97

What is the mechanism of action of azoles?

Answer 97

Inhibits cell membrane synthesis

Question 98

Give an example of an azole?

Answer 98

Fluconazole

Question 99

What is fluconzole used for?

Answer 99

Treat Candida

Question 100

What is itra/vori/posaconazole active against?

Answer 100

Aspergillus

Question 101

Give two polyenes

Answer 101

Nystatin

Amphotericin

Question 102

What is the mechanism of action polyenes?

Answer 102

Inhibit cell membrane function

Question 103

What is nystatin used for?

Answer 103

Topical treatment of Candida

Question 104

What is amphotericin used for?

Answer 104

IV treatment of systemic fungal infection, e.g. Aspergillus

Question 105

Give two antivirals

Answer 105

Aciclovir

Oseltamivir

Question 106

What is the mechanism of action of aciclovir?

Answer 106

When phosphorylated, it inhibits viral DNA polymerase

Question 107

What is aciclovir active against?

Answer 107

Herpes simplex

Varicella zoster

Question 108

Give two things caused by herpes simplex

Answer 108

Genital herpes

Encephalitis

Question 109

Give two things caused by varicella zoster

Answer 109

Chickenpox

Shingles

Question 110

What is the commercial name for oseltamivir?

Answer 110

Tamiflu

Question 111

What is the mechanism of action of tamiflu?

Answer 111

Inhibits viral neuraminidase

Question 112

What does tamiflu treat?

Answer 112

Influenza A and B

Question 113

What conditions require specialist antivirals for treatment?

Answer 113

HIV
HBV
HCV
CMV

Question 114

What kind of antimicrobial is metronidazole?

Answer 114

Antibacterial and antiprotozotal

Question 115

What bacteria is metronidazole active against?

Answer 115

Anaerobic

Question 116

What protozoa is metronidazole active against?

Answer 116

Amoebae
Giardia
Trichomonas

Question 117

What does amoebae cause?

Answer 117

Dysentry

Question 118

What does giardia cause?

Answer 118

Diarrhoea

Question 119

What does trichomonas cause?

Answer 119

Vaginitis

Question 120

What is the purpose of antimicrobial stewardship?

Answer 120

Aims to guide practitioners on how to use antimicrobials in children, young people, and adults, with the outcome of slowing the progress of antimicrobial resistance. This will hopefully ensure that antimicrobials remain an effective treatment for infection