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Deck 11: Principles of Antimicrobial Action and Resistance
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Deck 11: Principles of Antimicrobial Action and Resistance
1
Klebsiella spp.were isolated from a sputum sample, and susceptibility testing was performed.The isolates were sensitive to several antibiotics; however, they were resistant to ampicillin.Which one of the following statements explains this discrepancy?
A) The ampicillin disk is most likely expired.
B) Because Klebsiella spp. should be sensitive to ampicillin, a technical error is to blame.
C) Ampicillin inhibits cell wall synthesis. In addition, because Klebsiella spp. do not have a cell wall, they should not have been tested for ampicillin.
D) No discrepancy is present; Klebsiella spp. are normally resistant to ampicillin.
A) The ampicillin disk is most likely expired.
B) Because Klebsiella spp. should be sensitive to ampicillin, a technical error is to blame.
C) Ampicillin inhibits cell wall synthesis. In addition, because Klebsiella spp. do not have a cell wall, they should not have been tested for ampicillin.
D) No discrepancy is present; Klebsiella spp. are normally resistant to ampicillin.
D
Klebsiella spp.are normally resistant because of intrinsic resistance.
Klebsiella spp.are normally resistant because of intrinsic resistance.
2
MATCHING
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Penicillin
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Penicillin
A
3
Antibiotic resistance resulting from altered cellular physiologic structure caused by changes in a microorganism's usual genetic makeup is known as __________ resistance.
A) intrinsic
B) inherent
C) acquired
D) environmentally mediated
A) intrinsic
B) inherent
C) acquired
D) environmentally mediated
C
Acquired-resistance mechanisms are all genetically encoded; therefore the methods for acquisition are those that allow for gene change or exchange.Resistance may be acquired by genetic mutation, gene-transfer mechanisms, or a combination of mutational and gene-transfer events.
Acquired-resistance mechanisms are all genetically encoded; therefore the methods for acquisition are those that allow for gene change or exchange.Resistance may be acquired by genetic mutation, gene-transfer mechanisms, or a combination of mutational and gene-transfer events.
4
Antimicrobial agents that usually kill target organisms are said to be:
A) bactericidal.
B) antibiotic.
C) bacteriostatic.
D) antagonistic.
A) bactericidal.
B) antibiotic.
C) bacteriostatic.
D) antagonistic.
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5
MATCHING
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Rifampin
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Rifampin
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6
Staphylococcus aureus is a gram-positive organism that produces the enzyme beta-lactamase, which renders certain types of antibiotics inactive.The mode of action that is prevented in certain antibiotics sensitive to this enzyme is:
A) cell wall synthesis.
B) protein synthesis to the 30S ribosomal subunit.
C) protein synthesis to the 50S ribosomal subunit.
D) deoxyribonucleic acid (DNA) synthesis.
A) cell wall synthesis.
B) protein synthesis to the 30S ribosomal subunit.
C) protein synthesis to the 50S ribosomal subunit.
D) deoxyribonucleic acid (DNA) synthesis.
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7
MATCHING
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Ciprofloxacin
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Ciprofloxacin
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8
MATCHING
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Gentamicin
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Gentamicin
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9
Antimicrobial resistance resulting from the normal genetic, structural, or physiologic state of a microorganism is referred to as ________ resistance.
A) intrinsic
B) inherent
C) microorganism-mediated
D) clinical
A) intrinsic
B) inherent
C) microorganism-mediated
D) clinical
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10
Antimicrobial agents that inhibit bacterial growth but generally do not kill the organism are known as:
A) bactericidal.
B) antibiotic.
C) bacteriostatic.
D) antagonistic.
A) bactericidal.
B) antibiotic.
C) bacteriostatic.
D) antagonistic.
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11
Mycoplasmas are organisms without cell walls.Which antimicrobial agents would be ineffective in treating infections involving this bacterium?
A) Tetracycline
B) Aminoglycosides
C) Penicillin
D) Rifampin
A) Tetracycline
B) Aminoglycosides
C) Penicillin
D) Rifampin
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12
MATCHING
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Tetracycline
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Tetracycline
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13
MATCHING
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Polymyxin B
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Polymyxin B
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14
The mechanism of acquired, high-level resistance to vancomycin involves:
A) enzymatic destruction of the antibiotic.
B) altered antibiotic targets.
C) decreased intracellular uptake of the drug.
D) production of altered cell wall precursors that do not bind the antibiotic with sufficient avidity.
A) enzymatic destruction of the antibiotic.
B) altered antibiotic targets.
C) decreased intracellular uptake of the drug.
D) production of altered cell wall precursors that do not bind the antibiotic with sufficient avidity.
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15
MATCHING
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Vancomycin
Match the antimicrobial agent with its mode of action.
a.Cell wall synthesis inhibition
b.Cell membrane function inhibition
c.Protein synthesis inhibition
d.DNA and ribonucleic acid (RNA) synthesis inhibition
Vancomycin
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