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Deck 45: Principles of Antimicrobial Use
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Deck 45: Principles of Antimicrobial Use
1
For the treatment of meningitis, all of the following could be effective except:
A) Rifampin
B) Chloramphenicol
C) Ampicillin
D) Gentamicin
E) Ciprofloxacin
A) Rifampin
B) Chloramphenicol
C) Ampicillin
D) Gentamicin
E) Ciprofloxacin
Gentamicin
2
The aminoglycoside class of antibiotics has which of the following toxicities?
A) Ototoxicity
B) Nephrotoxicity
C) Hepatotoxicity
D) A and B
E) A, B, and C
A) Ototoxicity
B) Nephrotoxicity
C) Hepatotoxicity
D) A and B
E) A, B, and C
A and B
3
Methicillin-resistant Staphylococcus aureus (MRSA) has developed resistance to all β-lactams by what mechanism?
A) Nonreactive receptor on the bacterial cell surface that binds the antibiotic
B) Destruction of the β-lactam ring upon attachment to the mutated receptor
C) Mutated protein that acts to hydrolyze β-lactams
D) Acquisition onto the penicillin-binding site of a novel protein called PBP2a.
A) Nonreactive receptor on the bacterial cell surface that binds the antibiotic
B) Destruction of the β-lactam ring upon attachment to the mutated receptor
C) Mutated protein that acts to hydrolyze β-lactams
D) Acquisition onto the penicillin-binding site of a novel protein called PBP2a.
Acquisition onto the penicillin-binding site of a novel protein called PBP2a.
4
Antimicrobial agents that disrupt or inhibit nucleic acid synthesis are:
A) Clindamycin and lincomycin
B) β-Lactams, cephalosporins, and vancomycin
C) Quinolones and rifampin
D) Amikacin and gentamicin
E) Chloramphenicol
A) Clindamycin and lincomycin
B) β-Lactams, cephalosporins, and vancomycin
C) Quinolones and rifampin
D) Amikacin and gentamicin
E) Chloramphenicol
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