USMLE Step 1 – Antimicrobial Pharmacology High-Yield Q&A + Mechanisms – 2025 | Kaplan Med Format.

,USMLE Step 1 – Antimicrobial Pharmacology High-Yield Q&A + Mechanisms – 2025 |
Kaplan Med Format

What antibacterials block cell wall synthesis by inhibition of peptidoglycan cross-linking?

Penicillin, Ampicillina, Ticarcillin, Piperacillin, Imipnem, Aztreoname, Cephalosporins

What is to MOA of Bacitracin and Vancomycin?

block peptidoglycan synthesis

What is the MOA of polymixins (used in resistant pseudomonas?

Disrupt bacterial cell membranes

What is the MOA of sulfonamides and trimethoprim?

block nucleotide synthesis

What is the MOA of fluroroquinolones?

Block DNA topoisomerases

What is the MOA of Rifampin?

Block mRNA synthesis

What is the MOA of chloramphenicol, Clindamycin, Macrolides (e.g Ezythromycin), Linezolid?

Block Protein Synthesis at 50S subunit

What is the MOA of Aminoglycosides and Tetracyclines?

Block protein synthesis and the 30S subunit

Which antibiotics are bactericidal?

Vacomycin, Fluoroquinolones, Penicillin, Aminoglycosides, Cephalosporins, Metronidazole ("Very Finely
Proficient At Cell Murder")

Penicillin

Use: Syphillis; gram-pos/ MOA: block penicillin-binding-proteins, block transpeptidase cross-linking of
cell wall, activate autolytic enzymes/ Resistance: Penicillinase(B-lactamase)-sensitive aka drug broken
down by enzyme in periplasmic space/ Tox: Hypersensitivity

Methicillin

MOA: Penicillanase-resistant penicillin--blocks transpeptidase and is reisstant to B-lactamase due to
bulkier R group/ Use: MSSA/ Tox: interstitial nephritis; hypersensitivty

Naficillin

MOA: Penicillanase-resistant penicillin--blocks transpeptidase and is reisstant to B-lactamase due to
bulkier R group/ Use: MSSA/ Tox: hypersensitivty

, Dicloxacillin

MOA: Penicillanase-resistant penicillin--blocks transpeptidase and is reisstant to B-lactamase due to
bulkier R group/ Use: MSSA/ Tox: hypersensitivty

Ampicillin

MOA: same as penicillin but has extended coverage/ Use: to inlcude gram negative rods, but is
penicillinase-SENSITIVE so typically add a B-lactamase inhibitor like clavulanic acid/ Amoxicillin (in same
class) has greater oral avaibility than Ampicillin/ Tox: psuedomembranous collitis from rebound C. Diff
infection; hypersensitivity

Amoxicillin

MOA: same as penicillin but has extended coverage/ Use: to inlcude gram negative rods, but is
penicillinase-SENSITIVE so typically add a B-lactamase inhibitor like clavulanic acid/ Amoxicillin has
greater oral avaibility than Ampicillin (in same class)/ Tox: psuedomembranous collitis from rebound C.
Diff infection; hypersensitivity

Ticarcillin

MOA: Same as penicillin with extnded coverage/ Use: Pseudomonas, but suceptible to penicillinase so
use with clavulanic acid (a B-lactamase inhibitor); other gram neg. rods/ Tox: hypersensitivity

Carbenicillin

MOA: Same as penicillin with extnded coverage/ Use: Pseudomonas, but suceptible to penicillinase so
use with clavulanic acid (a B-lactamase inhibitor); other gram neg. rods/ Tox: hypersensitivity

Piperacillin

MOA: Same as penicillin with extnded coverage/ Use: Pseudomonas, but suceptible to penicillinase so
use with clavulanic acid (a B-lactamase inhibitor); other gram neg. rods/ Tox: hypersensitivity

Clavulanic acid

B-lacatamase inhibitor added to penicillin antibiotics

Sulbactam

B-lacatamase inhibitor added to penicillin antibiotics

Tazobactam

B-lacatamase inhibitor added to penicillin antibiotics

What at the major toxiciites of cephalosporins?

Disulfram-like reaction with ethanol, they incresease the toxcicity of aminoglycosides, vit k deficiency--
can increase bkeeding risk, cross-hypersentitivty for 5-10% of patients with penicillin hypersensitivity

Cefazolin

Class: 1st gen cephalosporins/ Use: mostly only gram (+) but also Proteus, E.coli, Klebsiella