33. Cell Envelope Abx

Question 1

what GN bug is usually hospital acquired with intrinsic resistance vs many of our Abx?

Answer 1

pseudomonas

Question 2

principles for prescribing antibiotics? (there are 5)

Answer 2

1. what is the syndrome?
2. Is it a bacterial or viral cause?
3. what bacteria are important?
4. what antibiotics will be effective?
5. choose the most narrow-spectrum effective antibiotic considering allergies, potential toxicities, PK/PD

Question 3

what are the categories of beta-lactam agents?

Answer 3

penicillins, cephalosporins, carbapenems, monobactams

Question 4

synthesis of the peptidoglycan layer?

Answer 4

transglycosylase inserts/links new peptidoglycan monomers

transpeptidase (PBP) forms stabilizing peptide cross links (to create layers of chains/meshlike structure)

constantly remodeled - AUTOLYSINS break linkages to allow for addition of new monomers

Question 5

antimicrobial agents that act on the cell wall are often bactericidal and kill what types of cells?

Answer 5

actively growing cells ONLY

Question 6

antimicrobial agents that act on the cell wall kill in a _____-dependent fashion.

Answer 6

time

Question 7

mechanism of action of penicillins?

Answer 7

B-lactam ring resembles D-ala-D-ala of peptidoglycan monomer and covalently (irreversibly) binds transpeptidase (PBP) so that it can’t work, the cell wall is weakened, and the cell die by osmotic lysis. Autolysins continue to work.

Question 8

PCNs mechanisms of resistance?

Answer 8

B-lactamases (hydrolyze B-lactam ring - eg penicillinases, cephalosporinases, carbepenemases, ESBL)

modified PBPs (like PBP2A encoded by MecA gene of MRSA)

Question 9

PCNs PK/PD?

Answer 9

bactericidal, high TI, good tissue penetration

renally excreted (need DAF), short 1/2 life (freq dosing)

Question 10

PCNs adverse effects?

Answer 10

hypersensitivity, acute interstitial nephritis, seizures at high dose

Question 11

Penicillin G?

Answer 11

• IV, short 1/2 life
• resistance (penicillinase) common
• GN cocci only
• GP cocci/anaerobes
• spirochetes

use for Neisseria Meningitides, streptococci, dental abscess/human bites (GP oral anaerobes), syphilis

Question 12

semi-synthetic PCNs?

Answer 12

nafcillin (IV) and dicloxacillin (PO)

bulky R group can’t fit into many B-lactamases so increased activity vs S. aureus

still resistance due to altered PBP (PBP2A by MecA in MRSA)

GP only!

used for infections due to methicillin susceptible S. aureus

Question 13

aminopenicillins

Answer 13

ampicillin (IV) & amoxicillin (PO)

slightly better spectrum of activity of PCN because some penetration through GN porins (effective vs. H.flu, E.coli but NOT pseudomonas)

still susceptible to B-lactamases

PCN adverse effects + GI distress, and pts w/mono who are tx w/amoxicillin will get maculopapular rash

use for CA HEENT and URIs (otitis media, epiglottists, sinusitis, pharyngitis, bronchitis), CA UTIs

Question 14

ESBLs

Answer 14

extended-spectrum B-lactamases (mutations that enable them to degrade some Abx designed to resist B-lactamase cleavage)

Question 15

B-lactamases are encoded where?

Answer 15

carried on plasmids, or encoded on chromosome. Txn constitutively OR induced by exposure to B-lactam Abx

Question 16

B-lactamase inhibitors?

Answer 16

Resemble B-lactam Abx but have little or no antimicrobial activity alone – designed to bind to the B-lactamases so that they are hydrolyzed while B-lactam Abx remain intact and able to exert effect

Used in combo w/B-lactam Abx to extend spectrum of Abx to include B-lactamase-producing bacteria

super broad spectrum

use for Polymicrobial infections (skin/ST, intra-abd, odontogenic) or Empiric therapy if the causative agent is unknown (severe infection) *DO NOT USE WHEN NARROW SPECTRUM AGENS WOULD SUFFICE

Question 17

ampicillin-sulbactam and amoxicillin-clavulonic acid

Answer 17

IV - amp-sulbactam
PO - amox-clavulanic acid

overcomes penicillinase resistance of S.aureus (not MRSA), use for B-lactamase producing GNs and anaerobes

Question 18

piperacillin-tazobactam

Answer 18

vs S. aureus (not MRSA)

vs B-lactamase producing GNs (INCL PSEUDOMONAS) and anaerobes

Question 19

cephalosporins mechanism of action and resistance?

Answer 19

B-lactam agents (more resistant to B-lactamases than PCN but resistance still significant)

intrinsic resistance (Pseudomonas, enterococci)
altereed membrane permeability (porins, pseudomonas)
altered PBPs (most afents not effective vs MRSA)
B-lactamases (AmpC and ESBLs)

Question 20

adverse effects of cephalosporins?

Answer 20

minimal, well tolerated

hypersensitivity and cross-reactivity w/PCN allergy

Question 21

cephalosporins spectrum of activity?

Answer 21

most GP but none vs enterococci and only one vs MRSA

increasing GN w/increasing generations

no anaerobic

Question 22

cephalosporins 1st generation?

Answer 22

Cefazolin (IV q8h), cephalexin (PO)

excellent tx penetration

penetrate outer membrane of many GN bacilli

used for surgical prophylaxis, skin/soft tissue infections (limited/resistance due to MRSA so dicloxacillin often used instead)

Question 23

2nd generation cephalosporins?

Answer 23

cefoxitin (IV)
cefotetan (PO)

increased GN activity

GOOD ANAEROBIC ACTIVITY - AN EXCEPTION

used for prophylaxis for intraabdominal surgery

Question 24

3rd generation cephalosporins

Answer 24

ceftriaxone (IV, q24h) for CA pneumonia, meningitis, serious infections, and HA UTIs

ceftazidime (IV) for pseudomonas

excellent GN activity

excreted through biliary tract (no DAF needed unless liver failure)

Question 25

4th generation cephalosporins

Answer 25

cefepime (IV)

highly resistant to B-lactamases

vs PSEUDOMONAS

use for serious or resistant infections

Question 26

5th generation cephalosporins?

Answer 26

ceftaroline (IV)

overcomes MRSA resistance (binds to PBP2A) but susceptible to ESBLs

only ceph w/MRSA activity

not good vs Pseudomonas (similar to 3rd generation)

Question 27

cephalosporin PLUS b-lactamase inhibitors?

Answer 27

ceftolozane/tazobactam
ceftazidime/avibactam

overcomes resistance to some B-lactamases (incl common ESBLs)

extend activity of cephalosporins

use for GN, incl pseudomonas

useful for resistant infections, UTI and intraabdominal infections

Question 28

carbapenems?

Answer 28

imipenem (given w/cilastatin), meropenem, ertapenem (qd)

resistant to B-lactamases, but emergence of carbapenemases (incl KPC and metallo-B-lactamases) and multiple agents (islands), challenging to treat

bactericidal

IV, needs DAF

same adverse effects as PCN (cross-reactivity w/PCN allergy)

good vs GP (but ertapenem has no enterococci activity)

good vs GN incl pseudomonas and ESBL producers (but ertapenem has no activity vs pseudomonas or acinobacter)

good vs anaerobes

use EMPIRICALLY FOR SERIOUS INFECTION TREATMENT OR RESISTANT INFECTIONS

Question 29

what % of reported PCN allergies are true allergies?

Answer 29

10-15

Question 30

monobactams

Answer 30

aztreonam IV (needs DAF)

little hypersensitivty, but little potency, so use for pts w/TRUE PCN allergy

use for ALL GNs (incl pseudomonas and anaerobes) but NO GPs

Question 31

Glycopeptides mechanism of action and resistance?

Answer 31

action: binds to terminal D-ala-D-ala so inibits transglycosylase and transpeptidase

resistance thanks to alteration of binding site (vanA changes to D-ala-D-lac, also vanB, vanC, vanD, and vanE genes)
OR thanks to thickened cell wall (decreased penetration: VISA = vancomycin intermediate susceptible staph aureus = GISA)

Question 32

Glycopeptides PK/PD

Answer 32

vancomycin

bactericidal, IV (oral doesn’t penetrate GI tract so use for C.diff)

renally excreted (needs DAF)

Question 33

glycopeptides adverse effects, spectrum, and uses?

Answer 33

vancomycin

adverse effects: red man syndrome, nephrotoxicity (avoid other nephrotoxic agents), dose dependent ototoxicity (so MONITOR LEVELS)

spectrum of activity: GP only (incl MRSA) - GP anaerobes like c.diff

use: inferior to B-lactams, use for severe GP infectoins or when there are allergies to PCN OR oral for c.diff

Question 34

cyclic lipopeptides?

Answer 34

daptomycin (IV, qd)

lipophilic tail inserts into cell membrane, K+ efflux, cell death without lysis

failures re: increased MIC to both vanc and daptomycin (thanks to thickened cell wall)

bactericidal

inhibited by pulmonary surfactant (don’t use for pneumonia)

concentration dependent

adverse: GI distress, headache, eosinophillic pneymonia, elevated CPK/rhabdomyolysis w/BID dosing (monitor and avoid statins)

GP only (incl MRSA and VRE)

use for complicated GP infections (skin/st; bacteremia; endocarditis)

Question 35

polymixins?

Answer 35

polymixin B and colistin

binds to LPS and disrupts outer membrane

IV only or topical

NEPHROTOXICITY, neurotoxicity, bronchospasm if inhaled

GN only (not proteus, serratia, or burkholderia)

use for serious resistant GN infections (when no other choice)

Question 36

bacitracin

Answer 36

topical, GP only

Question 37

fosfomycin

Answer 37

oral powder, GP and GN, use for UTI only

Question 38

oral cell envelope Abx?

Answer 38

amoxicillin, dicloxicillin, cephalexin

Question 39

GP ONLY cell envelope Abx?

Answer 39

nafcillin, vancomycin, daptomycin, bacitracin

Question 40

GN only cell envelope Abx?

Answer 40

aztreonam, polymixins

Question 41

adverse events:
PCN?
vancomycin?
daptomycin?

Answer 41

PCN: hypersensitivity
Vancomycin: red man, nephro (oto) toxicity
daptomycin: rhabdomyolysis, eosinophilic pna

Question 42

cell envelope Abx vs MRSA?

Answer 42

ceftaroline, vancomycin, daptomycin