Antibacterial Chemotherapy

Question 1

• very selective toxicity, bactericidal in growing, proliferating cells
• primarily used for gram (+)
• mechanism of action: covalent binding to transpeptidases/PBPs, inhibition of transpeptidase reaction, activation of murein hydrolases

Answer 1

penicillins

Question 2

absorption of penicillins?

Answer 2

oral-though many are acid sensitive

parenteral- IV or IM

depot- benzathina penicillin G

Question 3

distribution of penicillins?

Answer 3

good to most tissues and fluids, exlcusing pleural/pericardial/synovial

poor penetration to eye, prostate, CNS (except in meningitis)

Question 4

excretion of penicillins?

Answer 4

-tubular through organic acid secretory system, blocked by probenecid

Question 5

penicillins have __________ cell killing, where ______ above MBC relates to efficacy

Answer 5

time dependent

time

Question 6

penicillins primaryily used against gram positives?

Answer 6

Pen G and Pen V

Question 7

anti staph penicillins?

Answer 7

nafcillin, methicillin, isoxazolyl pencillins (ox-, clox-)

beta lactamase resistant

Question 8

extended spectrum penicillins with increased gram (-) activity?

Answer 8

ampicillin, amoxacillin, ticarcillin, piperacillin, mezlocilli

Question 9

anti pseudomonal penicillins effective against proteus and pesudomonas?

Answer 9

ticarcillin, piperacillin, mezlocillin

Question 10

problem with anti pseudomonal penicillins?

Answer 10

rapid emergence of resistance with pseudomonas, so use in combo with aminoglycosides or fluoroquinolones

Question 11

adverse effects of penicillins?

Answer 11

• ampicillin rash, self limiting
• hypersensitivity reaction: rapid onset, not dependent on therapeutic dose
• seizures in high doses

Question 12

resistance to penicillins due to?

Answer 12

• inaccessible PBPs: gram negatives, MRSA
• Beta lactamase resistant: plasmid mediated, use beta lactamase resistant penicillins (nafcillin, oxacillin, cloxacillin)
• co administer beta lactamase inhibitor (clavulanic acid, sulbactam, tazobactam)

Question 13

• structure and function similar to penicillins
• less sensitive to beta lactamases
• broader spectrum of activity
• poor oral absorption
• renal toxicity
• secondary ICWS

Answer 13

cephalosporins

Question 14

• generally greater gram (-) activity
• 2nd generation less gram (+) activity
• less beta lactamase sensitivity
• cephalosporine resistant (especially 4th generation-cefepime)
• less toxic to patient, better distribution to CNS

Answer 14

cephalosporins

Question 15

cefazolin and cephalexin (oral) are ______ generation cephalopsporins with _______ spectrum

Answer 15

1st generation

narrow

Question 16

cefuroxime (oral), cefotetan, cefaclor (oral) are _______ generation cephalopsorins with _________ spectrum

Answer 16

second generation

intermediate

Question 17

cefotaxime, ceftriaxone, ceftazidime, cefdopoxime (oral) are _______ generation cephalosporins with ________ spectrum

Answer 17

3rd generation

broad

Question 18

cefepime is _______ generation cephalosporin with _________ spectrum

Answer 18

4th generation

broad

Question 19

adverse effects of cephalosporins?

Answer 19

• local irritation from injection
• renal toxicity-tubular necrosis, interstitial nephritis, may be enhanced by aminoglycosides
• cefotetan and cefoperazone have disulfiram effect, give with vitamin K b/c bleeding and platelet disorders
• hypersensitivity - 1% cross reaction with penicillins

Question 20

• gram negative activity, virtually inactive against gram (+) or anaerobes
• becta lactamase resistant
• crosses blood brain barrier
• no cross reactivity in penicillin sensitive patients

Answer 20

aztreonam (a monobactam)

Question 21

• broad spectrum, anaerobes
• beta lactamase resistant
• pseudomonas: rapid resistance, use with aminoglycosides
• IV only
• crosses BBB
• inactivated by renal dipeptidase, co administer Cilastatin
• cross reative with penicillins, incidence low

Answer 21

imipenem (carbapenem)

Question 22

• inhibits transglycosylation
• bactericidal for gram positive
• IV for systemic use (MRSA), oral for C diff
• IV cleared through kidney- enhances oto and renal toxicity of aminoglycosides
• red man or redneck syndrome- histamine release

Answer 22

vancomycin

Question 23

• ICWS, broad spectrum
• inhibits cytoplasmic step in cell wall precursor synthesis
• active uptake by G6P
• oral
• actively excreted by kidney
• approved for single dose therapy of UTI
• synergistic with beta lactams, aminoglycosides, fluoroquinolones

Answer 23

fosfomycin

Question 24

• markedly nephrotoxic

- topical antibiotic only

Answer 24

bacitracin

Question 25

• basic peptides, act as detergents
• active against gram negatives, except proteus and neisseria
• limited to topical use due to systemic toxicity (esp. renal)
• salvage therapy for highly resistant acinetobacter, pesudomonas, and enterobacteriae

Answer 25

polymixin B and E (colistin) , membrane active drugs

Question 26

• target is different in pathogen than host

- substantially less selective toxicity than with ICWS

Answer 26

inhibitors of protein synthesis (IPS)

Question 27

• reversible binding to 30S subunit, bacteriostatic, selectivity based on bacterial uptake
• oral, chelate metal ions so don’t admin with food/milk/antacids
• well distributed except CNS, concentrates in teeth, bone, liver, bile, kidney
• cross placenta, excreted in milk

Answer 27

tetracyclines

Question 28

• broad spectrum
• mycoplasma, chlamydia, rickettsiae
• Lyme disease

Answer 28

tetracyclines

Question 29

adverse effects of tetracyclines?

Answer 29

• GI irritation
• superinfections-pseudomonas, proteus, clostridia, candida
• impaired liver function
• photosensitization
• calcium chelation: deposit in teeth and bones, discoloration, growth retardation, deformity

Question 30

resistance to tetracyclines?

Answer 30

• decreased uptake due to efflux pumps
• altered ribosomal proteins or RNA
• common in pseudomonas, proteus
• indiscriminate use/overuse

Question 31

• new generation of tetracyclines, no affected by efflux pump
• slight increased risk of death

Answer 31

tigecycline

Question 32

• macrolide antibiotics
• GI absorption but acid labile , enteric coating or esters
• also IV
• crosses placenta
• excreted in bile
• half life 1-5 hours (except one)
• bacteriostatic or bacteriocidal depending on dose

Answer 32

erythromycin, clarithromycin, azithromycin

Question 33

clinical uses of macrolide antibioitics?

Answer 33

• gram (+), some gram neg and mycobacteria
• backup for penicillins in pen-sensitive patients
• azithromycin and clarithromycin broader spectrum
• mycoplasma pneumonia, legionnaire’s, chlamydia

Question 34

adverse effects of macrolide antibiotics?

Answer 34

• GI
• microsomal enzyme inhibition- drug/drug interactions, oral anticoags, digoxin, antihistamines
• hepatotoxicity-esp with erythromycin estolate, cholestatic jaundice

Question 35

resistance to macrolide antibiotics?

Answer 35

• staph resistant, some strep and pneumo
• altered methylated rRNA, efflux pump, esterase which hydrolyzes erythromycins
• methylation and efflux pumps

Question 36

• minimal P450 based interactions

- tissue levels 10-100X plasma levels, 1/2 life 2-4 days

Answer 36

macrolide antibiotics

Question 37

clarithromycin and mycobacterium active against _______ in AIDS patients

Answer 37

avium intracellulare

Question 38

• ketolide, semi synthetic macrolide
• oral
• metabolized in liver
• poor substrate for efflux pump
• once daily dosing
• respiratory tract infections (CA-pneumonia, bronchitis, sinusitis)
• inhibits CYP3A4
• QT prolongation

Answer 38

telithromycin

Question 39

• bactericidal-irreversible inactivation of 30S ribos
• multiple effects on translation: misreading of mRNA, interfere with initiation, break up polysomes
• poor oral absorption, given IV
• no significant host metabolism
• glomerular filtration, very high concentrations in proximal tubules
• concentration dependent killing

Answer 39

aminoglycosides

Question 40

• use concentration dependent killing
• peak serum concentration relates to extent of killing
• higher peak values result in increased efficacy and decreased development of resistance

Answer 40

aminoglycosides, fluoroquinolones

Question 41

clinical uses for aminoglycosides?

Answer 41

• non resistant gram (-) infections (Ecoli, proteus, pseudomones)
• pseudomonas: gentamicin > tobramycin > amikacin
• streptomycin and getamicin are older, use older first

Question 42

related to aminoglycosides, used for penicillin resistant gonococci?

Answer 42

spectinomycin

Question 43

adverse effects of aminoglycosides?

Answer 43

• nephrotoxicity: high concentrations in renal cortex, usually reversible
• ototoxicity: loss of vestibular/auditory function, may be reversible
• neuromuscular blockage: common during surgery, myasthenia gravis

Question 44

resistance to aminoglycosides?

Answer 44

• increased bacterial metabolism through adenylation/acetylation/phosphorylation
• alteration in bacterial uptake
• altered ribosomal protein

Question 45

• reversible inhibitor of protein synthesis: bacteriostatic, broad spectrum
• pharmacokinetics: CNS levels=serum levels
• plasmid mediated resistance, slow development
• adverse effects: GI following fungal superinfection, anemia due to bone marrow suppression, aplastic anemia, usually irreversible and fatal, gray baby syndrome

Answer 45

chloramphenicol

Question 46

clinical use of chloramphenicol?

Answer 46

• powerful antibacterial, use limited by toxicity and resistance
• typhoid fever, rocky mountain spotted fever

Question 47

• lincosamide- antibiotic, bacteriostatic
• well absorbed and distributed, except CNS
• useful against bacteroids fragilis, other anaerobes
• MRSA, endocarditis prophylaxis
• GI upset, C diff superinfections, hepatotoxic

Answer 47

clindamycin

Question 48

• peptide macrolactones
• IV, potent CYP3A4 inhibitor
• block sites affected by macrolides and clindamycin
• approved for use against vanco resistance enterococcus faecium, MRSA
• no cross resistance with other IPS

Answer 48

streptogramins (quinupristin, dalfopristin)

Question 49

• prevents formation of 70S ribosome (unique), no cross resistance with other IPS
• bactericial against streptococci, bacteriostatic against staph and enterococic
• primary indication: vancomycin resistant E. faecium (limit to multi drug resistant gram + infections)
• bone marrow suppression, thrombocyopenia

Answer 49

linezolid (oxazolidinone)

Question 50

• PABA analogs, competitive inhibitor of dihydrofolate synthesis
• bacteriostatic
• oral, topical for burns
• acetylation yields inactive metabolite
• excreted in urine

Answer 50

sulfonamides

Question 51

• topical for burns
• opthalmic
• UTIs
• ulcerative colities
• adverse: allergic reactions , Stevens Johnson
• resistance: overproduction of PABA

Answer 51

sulfonamides

Question 52

• dihydrofolate reductase inhibitors
• treat UTI, usually combined with sulfonamide
• used for pneumocystic pneumonia, complicated UTI, many others
• combo is bactericidal

Answer 52

tremethoprim

Question 53

adverse effects of trimethoprim?

Answer 53

anti folate effects: megaloblastic anemia, leukopenia, granulocytopenia, treat with folinic acid

Question 54

• fluoroquinolones: fluorinated analogs of nalidixic acid
• excreted in kidney, blocked by probenicid
• DNA gyrase inhibitors

Answer 54

ciprofloxacin, levofloxacin, ofloxacin

Question 55

clinical use of fluoroquinolones?

Answer 55

• gram(-) in GI and urogenital tract infections, some gram (+)
• respiratory, skin, soft tissue infections, esp for multi drug resistant organisms

Question 56

adverse effects of fluoroquinolones? resistance?

Answer 56

• connective tissue disorders

- altered DNA gyrase, decreased permeability, plasmid mediated protection

Question 57

• oxidative stress
• 50% active drug excreted in urine
• treats UTIs, effective at ph < 5.5
• occasional hemolytic anemia
• all pesuodomonas, proteus resistant

Answer 57

nitrofurantonin

Question 58

• blocks synthesis of mycolic acids for mycobacterial cells wall, bactericidal in growing cells only
• TB prophylaxis or chemotherapy
• hepatotoxic, peripheral and central neuropathy (use pyridoxine B6)
• resistance: katG in mycobacterium

Answer 58

isoniazid (INH)

Question 59

• inhibits bacterial RNA synthesis
• inducer of microsomal enzymes, hepatotoxic, orange color to body fluids
• anti mycobacterial chemo

Answer 59

rifampin

Question 60

• inhibits synthesis of mycobacterial cell wall glycan

- dose dependent optic neuritis, decreased acuity, loss of red green sight

Answer 60

ethambutol

Question 61

• blocks membrane function of mcyobacterium
• gouty arthritis
• contraindicated in pregnancy

Answer 61

pyrazinamide

Question 62

• used for M.leprae
• sulfone, concentrates in skin, muscle, liver, kidney
• hemolysis, methemoglobinemia common

Answer 62

dapsone