Exam 5: Antimicrobials

Question 1

mechanisms of drug resistance

Answer 1

not enough drug, structure change in drug target, drug antagonist, drug inactivation (enzyme produced from microbe)

Question 2

superinfection

Answer 2

new infection that appears during the course of tx of primary infection

difficult to treat - typically resistant
yeast infection example

Question 3

selection of abx

Answer 3

identify organism
drug sensitivity
host factors - functioning immune sys? allergies? site of infection? foreign body (cath)?

Question 4

empiric therapy

Answer 4

abx selection based on initial presentation and common microbes found with the problem

ex. guy comes in immediately after getting a cut

Question 5

acute therapy

Answer 5

lab -> cult/sent, abx started immediately with broad-spectrum abx

ex. guy comes in days later and with swollen, red leg (worry for sepsis)

Question 6

tx principles

Answer 6

monitor first dose
patient ed - no sharing and complete course

Question 7

major ADRs

Answer 7

hypersensitivity, superinfections, organ toxicities (ear, liver, kidney)

Question 8

situations for prophylactic abx tx

Answer 8

UTI, COPD, pre-op, dental procedures, bacterial endocarditis, bites/wounds/STD exposures, neutropenic, labor and delivery

not abx but vaccines also

Question 9

gram positive examples

Answer 9

cocci - staph, strep
bacilli - mycobacterium, antracis

Question 10

gram negative examples

Answer 10

pseudomonas - gonorrhea, h. pylori, salmonella

Question 11

drug therapy for UTIs

Answer 11

*Trimethoprim/sulfamethoxazole (first line)Bactrim
*Nitrofurantoin(first line)
* Fosfomycin (first line)

*Phenazopyridine (Pyridium) –> AZO, not abx

Question 12

enzymes needed for HIV replication

Answer 12

reverse transcriptase, protease, integrase

Question 13

HAART

Answer 13

highly active antiretroviral therapy for HIV/AIDs CD4 count <500

Question 14

penicillin

Answer 14

“beta-lactam” abx - weaken cell wall membranes and bacteria lysis

narrow (PCN G) to broad spectrum (amoxicillin) to extended spectrum (piperacillin)

ADRs: common hypersensitivity (anaphylaxis), GI, interfere w/ contraceptives

no PO - stomach acid, can’t penetrate gram neg walls, inactivated by penicillinase

Question 15

ampicillin/amoxicillin

Answer 15

broad spectrum (worry about super infections)

use: gram + or - (e. coli)

ADRs: rash, GI upset

commonly used with other abx to inhibit beta-lactamase (augmentin ex)

Question 16

beta-lactamases

Answer 16

bacteria that resist penicillin through enzymes that inactivate the beta-lactam ring of the drug

Question 17

cephalosporins

Answer 17

“beta-lactam” abx - weaken cell wall membranes and bacteria lysis

broad spectrum and more effective with higher gen (against gram -)

minimal ADRs - cross allergy to PCN, superinfections, poor GI absorption (IV/IM)

implications: no alcohol (Disulfiram-like), promotes bleeding (warfarin), C.diff concerns

Question 18

different generations of cephalosporins

Answer 18

1st Generation; Cefazolin (Ancef) ; Cephalexin (Keflex)

2nd Gen: Cefuroxime (Ceftin); Cefaclor (Ceclor)

3rd Gen: Ceftriaxone (Rocephin); Ceftazidine (Fortaz)

4th Gen: Cefipime (Maxipime)-

5th Gen: Ceftaroline (Teflaro)- Effective: MRSA and VRSA

Question 19

imipenem

Answer 19

“beta-lactam” abx - weaken cell wall membranes and bacteria lysis

broad spectrum - gram + and -; only IV

resists beta-lactamases

Question 20

vancomycin

Answer 20

MOA: inhibitor of cell wall synthesis (binds to precursors of cell wall)

use: severe C. diff or MRSA

ADRs: nephrotoxic (peak/trough/creatinine), ototoxic, rapid infusion -> “red man syndrome”

widely used in hospital, only IV infusion (thrombophlebitis), SLOW IV push

Question 21

tetracylclines

Answer 21

broad spectrum, bacteriostatic, gram +/-, mostly 2nd line r/t resistance
-cycline (doxy)

MOA: inhibits protein synthesis -> blocks mRNA translation

use: anthrax, chlamydia, cholera, acne, h. pylori, periodontal disease

ADRs: GI irritation, binds to calcium -> teeth trouble, superinfections, hepatotoxic, nephrotoxic, photosensitive, **teratogenic

interactions: chelates w/ metal ions (avoid calcium, iron, magn, alumin, zinc) -> 2 hours apart

Question 22

erythromycin

Answer 22

macrolide - broad spectrum, bacteriostatic (inhibits protein synthesis)

use: bordetella pertussis, w/other abx for pna and chlamydia, resp & skin infx

ADRs: very safe, GI effects, **QT prolongation

Interactions: antidysrythmics, hepatic enzyme inhibitor (incr. levels of other drugs)

Question 23

azithromycin/clarithromycin

Answer 23

easier dosing than erythro (Qday or BID) and help with resistance to erythro

Question 24

clindamycin

Answer 24

broad spectrum, bacteriostatic (inhibits protein synthesis)

limited to anerobic infx (does not cross BBB) -> severe strep A and gangrene (c. perfrigens)
abdominal and pelvic infx

**big risk for C. diff

Question 25

C. diff tx

Answer 25

IV replacement, electrolyte management, vancomycin

drugs to slow GI motility should not be used

Question 26

linezolid

Answer 26

**MDROs - reserved for VRE and MRSA

ADRs: diarrhea, N/V, HA, **myelosuppression (monitor CBC)

Question 27

aminoglycosides

Answer 27

narrow spectrum, bactericidal
Gentamicin, amikacin, tobramycin, neomycin

use: aerobic gram- bacilli - used in GI for rapid affect

only IM/IV - highly polar (not absorbed in GI and doesn’t cross BBB)

ADRs: ototoxicity and nephrotoxicity **need trough levels, skeletal muscle relaxation and neuromyo blockade (paralysis + resp depress)

Question 28

sulfonamides & trimethoprim

Answer 28

Tri-metho-prim / Sulfa-methoxazole (Bactrim; Septra) -> **UTIs

MOA: Disrupt synthesis tetrahydrofolate -> derivative of folic acid

ADRs: hypersensitivity (mild to severe Stevens-Johnson syndrome-flu-like & blisters), hemolytic anemia, kernicterus, renal injury w/ crystalluria

Question 29

fluoroquinolones

Answer 29

-floxacin (cipro, levo)

broad spectrum, uses: resp, UTI, GI, skin/bone, prevent anthrax exposure

MOA: disrupt DNA replication & cell division

ADRs: GI, CNS, superinfection, photosens, tendons, QT prolong, hypoglycemia

decreased levels by dairy, antacids
increases levels of warfarin and theophylline *monitor for tox

Question 30

metronidazole

Answer 30

(Flagyl) abx and antiprotozoal - only anaerobic orgs, broad spectrum

GI, GU, CNS, bone, joint infx - prophylactic for surgeries

IV = slow, PO = metallic taste/GI upset

ADR: CNS (HA/dizzy/seiz), rash, Stevens johnson, GI upset

no alcohol (Disulfiram-like)

Question 31

bacitracin

Answer 31

MOA: Inhibits cell wall synthesis > cell lysis and > cell death

only topical, gram +, skin infx - lots of combo meds

Question 32

nitrofurantoin

Answer 32

(Macrobid) broad spectrum
uncomplicated, lower UTIs -> prophylactic

ADRs: GI upset, pulm (hypersensitivity), heme (CBC), hepatotoxic, peripheral neuropathy, birth defects, CNS

Implications: Monitor renal function, UOP, BMs, respiratory status, CBCs, liver function
take w/ food, no driving, dizzy/drowsy, increase fluids

Question 33

phenazopyridine

Answer 33

urinary analgesic (Azo)

MOA: acts locally in urinary tract mucosa to produce analgesic and relief from S/S

bright orange urine -> invalidates UA results, need culture

Question 34

Amphotericin B

Answer 34

broad spectrum antifungal, highly toxic (IV, no PO), used for systemic fungal infx

increases permeability of cell membrane (fungistatic and cidal)

**safety alert
ADRs: infusion reactions, nephrotoxic, hypokalemia, bone marrow suppress., liver failure, arrythmias, phlebitis

monitor creatinine and electrolytes

Question 35

fluconazole

Answer 35

broad spectrum antifungal w/ lower tox, PO or IV

inhibits liver enzymes (inc other meds)

systemic mycoses and candidiasis

ADRs: N/V/D, abd pain, HA, stevens johnson synd

Question 36

other -azoles

Answer 36

itraconazole = liver inj and card suppress
ketaconazole = hepatotoxic

Question 37

Caspofungin

Answer 37

echinocandins

MOA: disrupts biosynthesis of cell wall

IV only

Use: systemic infx that are intolerant/unresponsive to other meds

Question 38

Nystatin

Answer 38

polyene abx

MOA: alters cell membrane permeability

topical or PO - mild GI upset and rare rash

Question 39

acyclovir

Answer 39

antiviral - PO, topical, IV

MOA: Inhibits viral replication by suppressing synthesis of viral DNA

herpes simplex & varicella

ADRs: n/v, HA, dizzy, skin irritant, phlebitis, reversible nephrotoxicity

implications: lower dose for renal impairment

Question 40

ganciclovir

Answer 40

synthetic antiviral - IV, PO, topical

only approved for cytomegalovirus in immunocompromised

ADRs: **black box warning - granulo and thrombocytopenia, teratogenic, carcinogenic

implications: lower dose for renal, monitor CBC

Question 41

interferon alfa

Answer 41

MOA: block viral entry into cells by binding to receptor cells

use: hepatitis - SQ or IM

ADRs: flu-like sumptoms, depression, SI, GI, alopecia

Question 42

ribavirin

Answer 42

unclear MOA - use HEP C

broad spectrum antiviral, PO

ADRs: hemolytic anemia, teratogenic, flu-like, autoimmune disorders w/interferon

Question 43

simeprevir/grazoprevir

Answer 43

protease inhibitors

MOA: protease=enzyme required for replication

HEP C

ADRs: hepatic inj, photosen, rash

take w/ food

Question 44

daclatasvir & sofosbuvir

Answer 44

NS5A & NS5B inhibitors

used w/ other hep C drugs

ADR: HA, fatigue, lots of drug inter.

Question 45

lamivudine

Answer 45

MOA: inhibits viral DNA synthesis for Hep B and HIV

ADR: lactic acidosis, hepatomegaly, pancreatitis

Question 46

oseltamivir

Answer 46

Tamiflu

grab more from book *

Question 47

remdesivir

Answer 47

EUA for covid

shorter recovery time, not sufficient to help mortality

Question 48

Nucleoside/Nucleotide Reverse Transcriptase Inhibitors (NRTIs/NNRTI)

Answer 48

MOA: suppress synthesis of viral DNA by reverse transcriptase

**black box: fatal lactic acidosis w/ hepatic steatosis

Question 49

zidovudine

Answer 49

NRTI
no longer used other than perinatal transmission

(Retrovir or AZT)

ADR: **black box - severe anemia, neutropenia, lactic acidosis w/ hepatomegaly, myopathy

Question 50

abacavir

Answer 50

NRTI
(Aizgen or ABC)

ADRs: **same black box as other NRTIs, hypersensitivity, MI

no alcohol

Question 51

lopinavir/ritonavir

Answer 51

Protease inhibitor

most effective antiretroviral - reduces HIV viral count to undetectable

ADRs: ^BGL, lipodystrophy, hyperlipid, dec. card contract, hepatotoxicity

lots of drug interactions

Question 52

raltegravir

Answer 52

Integrase stand transfer inhibitors (INSTIs)

MOA: stops action of integrase so HIV DNA is NOT integrated into the T cell’s DNA. HIV daughter cells are not made

ADRs: relatively well tolerated, watch liver enzymes, insomnia

Question 53

enfuvirtide

Answer 53

Fusion inhibitors - block entry into CD4 T cells

used for infx resistant to other drugs

Question 54

maraviroc

Answer 54

CCR5 antagonists - 50-60% of HIV strains must bind with CCR5 to enter cell

also used when resistant

Question 55

common OIs w/ HIV/AIDs

Answer 55

** greatest risk <200 CD4

Pneumocystis carinii (jiroveci) pneumonia – Bactrim (TMP/SMZ)
Cytomegalovirus retinitis (CMV) – Ganciclovir
M. tuberculosis – 4-Drug for TB;
Cryptococcal meningitis – Amphotericin B
HSV or VZV - Acyclovir
Candidiasis – “azole”

Question 56

abx for common infx

Answer 56

Staph -
C. diff - clindamycin