Pogue: Antimicrobials IIa

Question 1

AMINOGLYCOSIDES

MOA:
What does it require?
Effective against anaerobes?

Bacteriostatic or Bacteriocidal?

Answer 1

MOA: bind 30S subunit of the ribosome to cause a decrease in protein synthesis

Requires active transport into the bacterial cell to exert its action (oxygen dependent)

No activity against anaerobes

Bacteriocidal: except against enterococcus

Question 2

AMINOGLYCOSIDES

Spectrum of Activity:
G+:
Activity against:
Only used when?

G-:
Active against:
Pseudomonas:

Anaerobes

Answer 2

Spectrum of activity
Gram (+)
–Activity against staph, strep
–Only used in this aspect for synergy (1 + 1 = 8) for serious infections

Gram (-)
–Active against many Gram-negative bacilli (including Pseudomonas)
–Pseudomonas: amikacin > tobramycin > gentamicin

Anaerobes
–No activity (remember the mechanism!)

Question 3

AMINOGLYCOSIDES

Agents:

Answer 3

IV: gentamicin, tobramycin, amikacin, streptomycin (all used in hospital)

PO/topical: neomycin (topical creams, ointments etc.)

Question 4

AMINOGLYCOSIDES

Synergy:

G+
Usually combined with:
What allows more entry into the cell?
Expands spectrum to include:
Use:

G-

Answer 4

Synergy

Gram (+)
–Usually combined with ß-lactam for synergistic effect
–Cell wall disruption allows more entry into the cell
–Expands spectrum to include enterococcus
–Only used in serious infections

Gram (-)
–In vitro a similar effect is seen
–This has never translated to improved clinical outcomes

Question 5

Gentamicin

Most common use:

Answer 5

AMINOGLYCOSIDE

Mostly used for synergy for staphylococcal or enterococcal infections

Eye ointments (as well as tobramycin)

Question 6

Tobramycin/ amikacin

Use:
Amikacin:

Answer 6

AMINOGLYCOSIDE

Used for empiric coverage of nosocomial infections (double coverage)
Sometimes continued for definitive therapy

Amikacin has a role in some mycobacterial infections

Question 7

Neomycin

Oral
Topical

Answer 7

AMINOGLYCOSIDE

Orally to decontaminate the GI tract prior to surgery

Often in topical creams (NEOsporin)

Question 8

Streptomycin

Use (2)

Answer 8

AMINOGLYCOSIDE

Enterococcal infection when gentamicin resistance (for synergy)

Mycobacterial infections

Question 9

Aminoglycoside monotherapy:

Answer 9

Should be avoided (for the most part) for definitive monotherapy for Gram (-) infections

Literature does not support outside of urinary tract infections

Question 10

Aminoglycoside
Pharmacokinetics:

Oral absorption:
Lipophilic?
Affects?

Highly concentrates where?

Therapeutic drug monitoring:

Answer 10

Poor oral absorption (PO not used for systemic infections)

Concentration dependent killing
–Optimize PK

Hydrophilic (poor tissue concentration)

Highly concentrated in the urine
–Renal dosing
–Good for UTI

Therapeutic Drug Monitoring
–Cmax/MIC 8-12 mcg/mL
–Cmin< 1 mcg/mL

Question 11

Aminoglycoside
Mechanisms of Resistance (3):

What does transferase enzyme do?
Mutation in what prevents binding?
What decreases porin production?

Answer 11

Enzyme modification
–Transferase enzyme adds an additional side chain to the drugs which prevent appropriate binding

Target-site modification
–Mutation in the 30S subunit, prevents binding

Decreased concentrations in the cell
–Decreased porin production
–Efflux pumps

Question 12

Aminoglycoside
Adverse events (3)

Most common?
Strategies to minimize:
What is associated with total drug exposure?

Answer 12

Nephrotoxicity
–Most common, and most serious adverse event
–Strategies to minimize
•Shorter durations
•Minimize trough levels (level at the end of the dosing interval)

Vestibular/ototoxicity
–Associated with total drug exposure (optimize PK)

Neuromuscular blockade
–Additive with other drugs; disease states (myasthenia)

Question 13

Fluoroquinolones

MOA:

Answer 13

MOA: inhibit bacterial DNA replication (unique)

Question 14

Fluoroquinolones

Agents of clinical relevance (5):

Answer 14

–Moxifloxacin
–Gemifloxacin (not available)
–Ciprofloxacin
–Levofloxacin
–Norfloxacin (different)

Question 15

Fluoroquinolones

Bacteriostatic or Bactericidal

Bioavailability:
exception

Answer 15

Bactericidal, concentration-dependent killing

Excellent bioavailability
–80% ciprofloxacin; ~100% levofloxacin, moxifloxacin
–NOT norfloxacin (as we will see)

Question 16

Fluoroquinolones
Spectrum of activity

G+:
Comparison of 3
Why shouldn’t levofloxacin be relied on to treat staph and enterococcus?
What has excellent strep coverage?

Answer 16

Gram (+)
–Levofloxacin > moxifloxacin > ciprofloxacin
–Levofloxacin has some activity against staph and enterococcus, but should NOT be relied on to treat clinically (simple one step mutation for resistance)
–Levofloxacin and moxifloxacin have excellent streptococcus coverage (including s.pneumoniae)

Question 17

The “respiratory fluoroquinolones”:

Excellent activity against:

Why isn’t cipro a respiratory FQ?

Answer 17

–Levofloxacin and moxifloxacin (and gemifloxacin)

–Excellent activity against all CAP organisms (S.pneumo, H.influenzae, M.cat, atypicals)

Not effective against most common pathogens

Question 18

The Gram (-) fluoroquinolones:
Coverage against:

Anaerobic FQ:

Answer 18

Ciprofloxacin and levofloxacin

Coverage against enteric Gram (-) as well as pseudomonas

Anaerobic FQ
–Moxifloxacin

Question 19

FQ PK

Bioavailability?
What is notable about norfloxacin?

Hydrophilic or lipophilic?

Answer 19

Excellent bioavailability

–NOT norfloxacin –> clinically used for Selective Gut Decontamination (SGD), UTI

Highly lipophilic, allows to be used for infections in many body sites
-CSF, lungs, skin, tissue, bone, joint, blood

Question 20

FQ

G-:
Comparison of 3
What has anti-pseudomonal activity?

Answer 20

Gram (-)
–Ciprofloxacin > Levofloxacin > Moxifloxacin
–Ciprofloxacin and levofloxacin have anti-pseudomonal activity (C > L)
–Resistance increasing in Gram (-) organisms likely secondary to overuse

Question 21

FQ
Anaerobic:
What has activity?
Reliable against B. fragilis?

Answer 21

Only moxifloxacin has activity (not reliable against b. Fragilis)

Question 22

Fluoroquinolones
Elimination:
Exceptions:

Answer 22

Renally eliminated (dose adjustment needed)
–Exception is moxifloxacin

Question 23

Fluoroquinolones
Side Effects (5):

Answer 23

Central nervous system toxicity

Damage to growing cartilage

Tendon rupture

Dysglycemia

Cardiac arrhythmias and possible torsades

Question 24

Fluoroquinolones
Side Effects

CNS:
Cartilage:
Tendon Rupture:

Answer 24

Central nervous system toxicity
–Headaches, dizziness, insomnia, seizures
–More common in elderly, h/oseizures, etc.

Damage to growing cartilage
–Only seen in animals so far
–Reason for soft contraindication in pediatrics

Tendon rupture (rare)

Question 25

Fluoroquinolones
Side Effects

Dysglycemia:
Cardiac arrhythmias:

Answer 25

Dysglycemia
–Remember the story of gatifloxacin!

Cardiac arrhythmias and possible torsades
–Moxifloxacin is considered higher risk
–Minimal risk unless prone to arrhythmias or on other QT prolonging drugs

Question 26

Fluoroquinolones

Drug Interactions:

Answer 26

Reduced oral absorption when taken with divalent cations
–Ca, Mg, Fe
–Due to chelation

Question 27

Fluoroquinolones

Mech of resistance:
How does this affect unrelated antibiotics?

Answer 27

Efflux pumps
–Known inducers of efflux pumps which are able to carry many structurally unrelated antibiotics out of the cell as well (e.g. b-lactams, carbapenems, tetracyclines)

Target site modification
–Decrease binding at the site of action

Question 28

Vancomycin

Class:
Overseas equivalent:
G+/-?
Aerobic vs anaerobic

Answer 28

Until recently, only commercially available antibiotic from the glycopeptide class in the USA
–Overseas: Teicoplanin

Gram (+) organisms only

Aerobic coverage > anaerobic coverage

Question 29

Vancomycin

Mechanism of Action

Answer 29

Binds to D-ala D-ala terminal portion of peptidoglycan precursors and prevents further cross-linking (slowly cidal)

Question 30

Vancomycin

IV vs. PO

Answer 30

IV and PO formulations available
–IV for systemic infections
–PO formulation not absorbed; only used clinically to treat c. difficile colitis

Question 31

Vancomycin

Type of elimination:

Trough levels:

Answer 31

Renally eliminated
–Dose adjustments needed in renal insufficiency

Trough levels monitored for efficacy
–15-20 mcg/mL goal for more serious infections

Question 32

Vancomycin

Used empirically to cover:

Inferior to β-lactams for:

Use in pts with allergy to:

Answer 32

Used empirically to cover for MRSA
–Inferior to β-lactams for MSSA

Patients with β-lactam allergy

Question 33

Vancomycin

Activity against streptococcus and enterococcus:
Compare to β-lactam:

Answer 33

Vancomycin has activity against streptococcus and enterococcus as well but inferior to β-lactam based therapy

Broader-spectrum, but weaker killing

Question 34

What is MRSA?

Effect of β-lactams:

Answer 34

Penicillin-blinding protein alteration (addition of PBP2A)

β-lactams will not bind to PBP2A, thus β-lactams have no activity against MRSA

Continual problem in hospitals

~70% of staph in DMC is MRSA
Growing problem in community as well

Question 35

Vancomycin and MRSA

Answer 35

Empiric regimens for hospital-acquired infections almost always include vancomycin to cover for MRSA

Vancomycin has been the standard of care for MRSA for many years

Elevation in vancomycin MIC’s have recently occurred in MRSA
–Much debate about the current optimal therapy

Question 36

Vancomycin 
Side Effects (4):

Answer 36

Nephrotoxicity
–Historical incidence is smaller than most people believe
•Usually in combinations with other nephrotoxic agents
–Controversial newer data showing an increased incidence with higher doses

Ototoxicity
–Extremely rare. Associated with very high peaks

Rash
“Red-Man’s Syndrome”

Question 37

“Red-Man’s Syndrome”

Definition
How do you overcome it?

Answer 37

Not a true allergy

Histamine response related to rapid infusion

Can overcome by slowing down infusion (no greater rate than 1g over 1 hr) and premedication with diphenhydramine

Question 38

What does MSSA have that makes it resistant to penicillin?

What does MRSA have that makes it resistant to Nafcillin?

Answer 38

Penicillinase

PBP alteration

Question 39

Telavancin

MOA

Answer 39

Second generation glycopeptide (came to market 2010)

MOA: same as vancomycin, plus direct binding to the bacterial membrane disrupting barrier function

Question 40

Telavancin
Comparative effect against G+:
Activity against MRSA:

Answer 40

Increased bactericidal activity against Gram positives

–Some activity against MRSA with elevated vancomycin MIC’s

Question 41

Telavancin

Pharmacological issues (3)

Answer 41

–Nephrotoxicity (higher than vancomycin)
–Interference with coagulation tests (significant!)
–Teratogenicity in animal studies

Question 42

DAPTOMYCIN

MOA:
Bactericidal?
Spectrum of action:

Answer 42

IV only

MOA: embeds in membrane and creates a K+ efflux channel, leading to depolarization of the membrane and cell death

Bactericidal: HIGHLY

Spectrum of Action: GRAM (+) ONLY; staphylococcus, streptococcus and enterococcus

Question 43

DAPTOMYCIN

Clinical applications:

Answer 43

Major uses: MRSA and VRE bloodstream infections, endocarditis, and soft tissue infections

Question 44

Daptomycin

Issues:
Cross resistance:

Answer 44

Some cross-resistance seen with strains of MRSA that have elevated vancomycin MICs
–Cell wall thickening (VISA)

Overall, still one of the safest drugs

Question 45

What is the only available oxazolidinone?

Answer 45

Linezolid

Question 46

Linezolid

MOA

Answer 46

Inhibits protein synthesis by binding to the 50S ribosomal subunit

Question 47

Linezolid

Spectrum of activity

Answer 47

Gram (+) only (staph and enterococcus)

Question 48

Linezolid
Pharmacokinetics
Elimination

Answer 48

Great absorption (~100%)
IV and PO dose the same
Not renally eliminated (no dosage adjustment)

Question 49

Linezolid

Clinical application

Answer 49

Drug of choice for VRE infections

Some use for MRSA (particularly pneumonia +/- elevated vancomycin MIC)

Question 50

DOC for VRE Infections

Answer 50

Linezolid

Question 51

Linezolid

Side effects of concern (WILL BE ASKED!)

Answer 51

Thrombocytopenia –> Usually seen with long courses (~day 14 of therapy)

Rare peripheral/optic neuropathy

Question 52

Linezolid
DDIs

Serotonin syndrome

Answer 52

Linezolid is a weak MAOI

Concern for serotonin syndrome with drugs which work on serotonergic receptors (e.g. SSRIs)

Serotonin syndrome: fever, agitation, mental status changes, etc.

Can also occur if tyramine is given (good pharmacologic jeopardy question!)

Question 53

Daptomycin
Adverse event of concern:

Effect in lungs:
Avoid:

Answer 53

Adverse event of concern
–CPK elevations and rhabdomyolysis
–Infrequent; caution with statins

Irreversible binding to pulmonary surfactant
– Surfactant is like a G+ membrane

– Avoid in pneumonia

Question 54

Vancomycin-resistant enterococcus

Common in what?

Answer 54

Common in e.faecium; occasionally occur in e.faecalis
–Detroit is oddly enough the capital of the vancomycin resistant e.faecalis

In e.faecium, ampicillin resistance also common

Question 55

Treatment choices for VRE (4)

Answer 55

–Linezolid
–Daptomycin
–Quinupristin/dalfopristin (e.faecium only)
–Tigecycline (maybe other tetracyclines)

Question 56

Vancomycin mechanism of action

Answer 56

Binds to D-ala D-ala terminal portion of peptidoglycan precursors and prevents further cross-linking (slowly cidal)

Question 57

What happens to D-ala D-ala in VRE? How does this affect vancomycin?

Answer 57

In VRE: D-ala D-ala becomes D-ala D-lac (or d-ser) in which vancomycin cannot bind

–Same mechanism in VRSA, although rarely seen
•(again Detroit is the place to go for this bug as well!)

Question 58

What was the first drug for treatment of VRE?

Answer 58

quinupristin/dalfopristin

Question 59

Why has quinupristin/dalfopristin fallen out of favor?

Answer 59

High rates of infusion reactions, arthralgias, and myalgias, hepatotoxicity

Availability of other agents

No activity versus e.faecalis

Question 60

Quinupristin/dalfopristin

Class:
MOA:
Brand name:

Answer 60

Streptogramin
Ribosomal as well (50S)
Brand name: Synercid

Question 61

One more look at S. aureus

Answer 61

VISA-Cell wall thickening
(vanco MIC 4-16 mcg/mL)
↑
MRSA
↓
VRSA-Transfer of VRE resistance gene
(vanco MIC > 32 mcg/mL)