Antimicrobials

Question 1

Minimum inhibitory concentration (MIC)

Answer 1

stops growth

Question 2

Minimum bactericidal concentration (MBC)

Answer 2

kills 99%

Question 3

bacteriostatic vs

bacteriocidal

Answer 3

stops growth/reproduction of bacteria

Kills bacteria directly

Question 4

Broad spectrum antimicrobials

Answer 4

1. Chloramphenicol
2. Tetracycline
3. Sulfonamides
4. Trimethoprim

*assume everything else is narrow if it isnt also on extended antimicrobials list

Question 5

Extended use antimicrobials

Answer 5

1. Aminoglycosides
2. Macrolides
3. Streptogramins
4. Extended spec- PCNs
5. Cephalosporins
6. Carbapenems
7. FQ

*assume everything else is narrow if it isnt also on broad spect. antimicrobials list

Question 6

Cell wall synthesis inhibitors

Answer 6

1. B lactams
   - PCNs, Cephalo, Carbapen, Monobactams
2. Glycopeptides
   - Bacitracin
   - Vancomycin
3. Cycloserine (TB)

Question 7

Penicillins

• MOA
• Pharmacokinetics (excretion)
• Adverse rxn

Answer 7

MOA: Inhibit cell wall synth, bactericidal

Pharmacokinetics:
Renal excretion

Adverse:
Anaphylaxis (Type I)
Rash (Type III)
Convulsions at high dose

Question 8

Which of the PCNs are good oral and which good IV?

Answer 8

All are good oral except:

1. PCN G (IV/IM)
2. Anti-pseudomonal (IV)
   - Piperacillin (B lactamase inhib)

All rest are good oral

1. Pen V
2. PCNase resistant
   - Methicillin
   - Oxacillin
3. Extended spectrum
   - Ampicillin
   - Amoxicillin (w/ B lactam inhib)

Question 9

Which are harder to treat? Gram - or Gram +?

Answer 9

Gram - : thin cell wall
- like a thin bullet proof vest - diff to penetrate

(Gram + have thick cw: like thick dry wall which absorbs more)

Question 10

Spectrum/Uses (targets) of:
Pen G
Pen V

Answer 10

Gram +/- cocci,

Gram + bacilli, most anaerobes

Question 11

Spectrum/Uses (targets) of:

Penicillinase resistant PCNs

Answer 11

B-lactamase producing S. aureus

Question 12

Spectrum/Uses (targets) of:

Extended spectrum PCNs

Answer 12

Now PCN can target Gram -

*ie: enterobacteriaceae, H. flu, E. coli

Question 13

Spectrum/Uses (targets) of:

Antipseudomonal (PCN)

Answer 13

Less Gram + (like nl PCN) and more Gram -

• remember gram - are harder to treat
• Ie: pseudomonas, bacteroides

Question 14

List Cephalosporins (182)
1st gen:
2nd gen:
3rd gen:

Answer 14

1st gen:
- Cefazolin, Cephalexin

2nd gen:
- Cefoxitin, Cefaclor, Cefuroxime

3rd gen:
- Ceftriaxone, Cefoxatime, ceftazidime

4th:
- Cefipine

5th:
- Ceftaroline

Question 15

Pharmacokinetics of Cephalosporins

- which one can distribute well to CSF?

Answer 15

Most IV, some po

3rd gen distributes well to CSF
- Ceftriaxone, cefoxatime, ceftazidime

Question 16

Protein synthesis inhibitors

Answer 16

1. Cloramphenicol
2. Clindamycin
3. Oxazolidinones*
   - Linezolid
4. Macrolides
5. Streptogramins**
6. AG
7. TCN
8. Rhupirocin

Question 17

Which protein synthesis inhibitors target 30s and which at 50s bacterial subunit? (leaving hu 80s unaffected)

Answer 17

buy AT 30, CCEL at 50
(184)

30s:
Aminoglycosides (cidal)
Tetracycline (static)

50s:
Chloramphenicol
Clindamycin (cidal)
Erythromycin (static)
Linezolid

Question 18

List aminoglycosides

Answer 18

(184) “mean” for ameanoglycoside

mean GNATS

Gentamycin
Neomycin
Amikacin
Tobramycin
Streptomycin

Question 19

Toxicity for aminoglycosides

Answer 19

(184) “mean” GNATS caNNOT kill anaerobes

Nephrotoxicity
Neuromuscular block
Ototoxicity (esp with loop diuretic)
Teratogen

Question 20

Spectrum of Aminoglycosides

Answer 20

Med spectrum Gram - aerobes

TB

Question 21

All protein synthesis inhibitors have GOOD po and IV pharmacokinetics, except ____ which is only good po, and _____ which is only good IV

Answer 21

Tetracycline: good po
- renal/biliary excret

Streptogramins: IV only
- hepatic elim

Question 22

Tetracycline (TCN, doxycycline, minocycline) toxicity

Answer 22

1. GI distress (interacts with metal ions in antacids/milk)
2. Discoloration of teeth and inhibit bone growth in children (bone distribution)
3. Photosensitivity
4. Fungal Superinfections

Question 23

Spectrum/use of tetracyclines

Answer 23

drugs ability to accumulate intracellularly makes them very effective against Rikettsia and Chalmydia

1. Rikettsia
2. Chlamydia
3. Borrelia (spirochete)
4. M. pneumonia

Question 24

Pharmacokinetic of macrolides

Answer 24

Good PO + IV

• Concetrates in lungs
• Hepatic metabolism to active metabolite
• Biliary elim

Question 25

MOA of macrolides

Answer 25

Macrolides block macroSLIDES

- bind to 23S rRNA of the 50s subunit and inhibit protein synthesis

Question 26

Toxicity of macrolides

Answer 26

MACRO toxicity for macrolides

Motility issues (GI)
Arrythmia
Cholestatic hepatitis
Rash
eOsiniphilia

Drug interactions due to inhibition of P450

Question 27

CLinical use of macrolides

Answer 27

atypical pneumonias

• Mycoplasma
• Chlamydia
• Legionella

STIs
- chlamydia

GPC
- streptococcal infxn in pts allergic to PCN

B. pertussis

Question 28

Chloramphenicol clinical use

Answer 28

Broad spectrum

1. Meningitis
   - H. flu
   - N. meningitidis
   - S. pneumoniae
2. Rocky Mt spotted fever
   - Rikettsia rikettsii

Question 29

Chloramphenicol toxicity

Answer 29

1. Anemia (dose dep)
2. aplastic anemia
3. gray baby syndrome
   - in premature infants bc they lack liver UDP glucuronyl transferase

Question 30

Chloramphenicol pharmacokin

Answer 30

Good PO, IV, distrib (CNS/CSF)

Metabolized via glucuronidation
*gray baby syndrome can result in premature infants

Question 31

Clindamycin (185)

Pharmacokinetics

Answer 31

Good PO and IV
(Like most protein synthesis inhibitors)

Penetrates into bone

Hepatic metabolism

(treats anaerobic infxns above the diaphragm vs metronidazole which tx below)

Question 32

Clindamycin (185) adverse rxns

Answer 32

Pseudomembranous colitis (c. diff overgrowth)

Fever, severe diarrhea

Question 33

Clinical use of Clindamycin

Answer 33

Narrow spectrum

1. Oral infxn
2. Anaerobic infections in aspiration pneumonia
   - Bacteroides, C. perfringens
3. Lung abscesses
4. invasive GAS (gram +) **

Question 34

Which two groups of Protein synth inhibitors can cover Vanco resistant Enterococcus faecium (VREF)?

Answer 34

Streptogramins
- Synercid

Oxazolidinones
- Linezolid

*both inhibit at 50s subunit

Question 35

MOA and Pharmacokinetic of Streptogramins (pristins) and Oxazolidinones (linezolid)

Answer 35

protein synth at 50s subunit

IV

*linezolid can give good PO too

Question 36

Adverse rxns of streptogramins

Answer 36

Inhibits CytP450

- increase plasma lvl of drugs

Question 37

Adverse rxns of oxazolidinones

Answer 37

Serotonin Syndrome:
- HA
- D/N (gastro)
Inhibits MAO
- muscle rigidity
- seizure

Peripheral neuropathy

Bone marrow suppression

Question 38

Which antimicrobial agent to use against G+ species INCLUDING MRSA and VRE

Answer 38

Oxazolidinones

- Linezolid