Principles of Antibiotic Use Flashcards
susceptibility to drug depends on achieving concentration at _____ that is sufficient to inhibit microbe growth
at the site of infection
bacteriostatic vs bactericidal
bacteriostatic: suppress growth, keep bacteria in stationary phase of growth
bactericidal: kill bacteria
in general, protein synthesis inhibitors are [bacteriostatic/bactericidal]
while cell wall-active agents are [bacteriostatic/bactericidal]
protein synthesis inhibitors - typically bacteriostatic (except aminoglycosides)
cell wall-active agents are bactericidal, as are rifampin (targets DNA-dependent RNA pol) and quinolones (targets DNA gyrase)
MIC vs MBC
MIC (minimum inhibitory concentration): lowest concentration of antimicrobial or drug that will inhibit the visible growth of bacteria
MBC (minimal bactericidal concentration): lowest concentration of antibacterial agent required to kill a particular bacterium
*if MIC is within therapeutic range but MBC is not —> bacteriostatic
*if MBC is within therapeutic range of drug —> bactericidal
drug resistance occurs when the concentration of drug….
… required to kill or inhibit microbe is greater than the concentration that can be safely achieved
explain how MIC and MBC determine whether a drug is bacteriostatic or bactericidal
*if MIC is within therapeutic range but MBC is not —> bacteriostatic
*if MBC is within therapeutic range of drug —> bactericidal
MIC (minimum inhibitory concentration): lowest concentration of antimicrobial or drug that will inhibit the visible growth of bacteria
MBC (minimal bactericidal concentration): lowest concentration of antibacterial agent required to kill a particular bacterium
prophylactic vs empiric vs definitive antimicrobial therapy
prophylactic: prevent colonization or infection by any or all microorganisms - not very effective but appropriate for immunosuppressive patients
empiric: treat all likely pathogens, single broad-spectrum agent preferable but combination therapy also possible (life-threatening situations)
definitive: narrow-spectrum agent specific for identified organism
which of these are examples in which prophylactic antibiotic therapy is commonly used?
a. immunosuppressed patients
b. rifampin to prevent meningococcal meningitis in people in close contact to a case
c. prevention of gonorrhea or syphilis
d. TMP-SMX to prevent recurrent UTI by E. coli
e. patients with valves or other structural heart lesions predisposing to endocarditis prior to procedures
f. preventing wound infections after surgical procedures
these are all examples
note that preventing wound infections after surgical procedures is best-studied use
Which of these are true regarding combination antibiotic therapy?
a. used for treatment of severe infection when causative organism is unknown
b. used for treatment of polymicrobial infections
c. enhances antimicrobial activity for specific infection
d. has major risk of emergence of resistance
e. reduces toxicity to host
a. used for treatment of severe infection when causative organism is unknown
b. used for treatment of polymicrobial infections
c. enhances antimicrobial activity for specific infection
e. reduces toxicity to host
*actually prevents emergence of resistance (very unlikely a bacteria is resistant to 2+ drugs at once)
describe each type of combination antibiotic therapy:
a. synergistic
b. additive
c. indifferent
d. antagonistic
synergistic: one drug affects microbe such that it is more sensitive to inhibitory action of another drug
additive: drugs work independently of one another
indifferent: combination therapy is no different than individual therapy
antagonistic: combination therapy is less effective than individual therapy
fill in the blank with either bacteriostatic or bactericidal (can be used multiple times, or not at all:
____ antibiotics frequently antagonize action of _____ antibiotics
____ antibiotics in combination tend to be additive or synergistic
BACTERIOSTATIC antibiotics frequently antagonize action of BACTERICIDAL antibiotics (example: tetracyclines antagonize beta-lactams)
BACTERICIDAL antibiotics in combination tend to be additive or synergistic (example: cell wall synthesis i inhibitors plus aminoglycoside)
