Anti-infectives COPY

Question 1

What are common causes of drug resistance?

Answer 1

• Overuse of broad-spectrum abx.
• Over prescription of abx. for viral illnesses
• Use of abx in animals that enter the food chain

Question 2

Gram + organisms definition

Answer 2

Type of bacteria has a cytoplasmic membrane surrounded by a touch rigid mesh cell wall.

• Ex: staph aureus, strep pneumoniae, clostridium
• stain purple

Question 3

Gram - organisms definition

Answer 3

Type of bacteria has a thin cell wall surrounded by a second lipid membrane.

• Ex: E. coli, pseudomonas, H. pylori, Neisseria, gonerrhea, salmonella - stain pink

Question 4

Obligate aerobes

Answer 4

Organism needs oxygen to survive

Question 5

Obligate anaerobes

Answer 5

Organism is poisoned by oxygen

Question 6

Facilitative anaerobes

Answer 6

Can grow with or without oxygen because they can metabolize aerobically or anaerobically.

Question 7

Bacteriostatic

Answer 7

Antibiotic which stops growth of bacteria but does not kill bacteria

Typically requires a higher concentration

Question 8

Bactericidal

Answer 8

Antibiotic which kills bacteria

• important to use this type in patients that are immunocompromised

Question 9

What are mechanisms of action for antibiotics?

Answer 9

Question 10

Important factors to keep in mind when prescribing antibiotics:

Answer 10

• immune system function
• renal and hepatic function
• Age
• Pregnancy/lactation
• Risk for multi-drug-resistance organisms
• Patient adherence: lowest frequency for the shortest duration - cost effective
• for kids: taste good and most concentrated dose

Question 11

Name common gram + organisms and where the common infections they cause

Answer 11

•Staphylococcus aureus

-Commonly causes skin infections

–Can also cause endocarditis, sepsis, osteomyelitis, pneumonia

•Streptococcus

–Pyogenes (pharyngitis [GAS], impetigo, cellulitis)

–Pneumoniae (pneumonia, meningitis, sepsis)

–Agalactiae: meningitis, vaginitis [GBS], UTI, endocarditis, skin infection

•Enterococcus

–Anaerobic

–Can cause UTI, prostatitis, intra-abdominal infections, cellulitis, endocarditis

•Bacilli

–Lactobacilli -present in the mouth, vagina

–C. difficile

Question 12

Name common gram negative organisms and the infectiosn they cause

Answer 12

•Escherichia coli

–Found in the intestines of humans and animals

–Responsible for food-borne illness and UTI

–Can also cause cholecystitis, traveler’s diarrhea and sepsis

•Pseudomonas aeruginosa

–Most common in hospitalized patients

–Can cause otitis externa, Pneumonia, wound infection, UTI, sepsis

•Klebsiella pneumoniae

–Colonizes the human mouth and gut

–Commonly causes Pnuemonia, UTI, sepsis

• Neisseria gonorrhoeae
• Haemophilus influenzae

–Pneumonia bronchitis, otitis media, cellulitis, infectious arthritis

Question 13

What is the MOA of the penicillins?

Answer 13

Inhibit the biosynthesis of peptidoglycan bacterial cell wall (weakens cell wall)

-Bactericidal

Question 14

Penicillin G Benzathine is active against what type of organisms?

Answer 14

Narrow spectrum antibiotic

• gram + mostly: S. pneumoniae, group A strep
• Pen G (IV) best for syphilis infection (T. pallidum)

Question 15

Penicillin V is active against what type of organisms?

Answer 15

Narrow spectrum antibiotic

• best for group A beta-hemolytic strep
• strep throat/pharyngitis

Question 16

What is Clavulanic acid?

Answer 16

A compound that inhibitis beta lactamase (made by bacteria to inactivate penicillin).

Used in Augmentin (amoxicillin/clavulanic acid) to increase spectrum of susecptible bacteria.

Question 17

Amoxicillin and Augmentin (Amox/Clavulanic Acid) are active against what type of organisms?

Answer 17

More broad spectrum - Same gram + organisms as Pen V/Pen G but also some activity against gram - organisms

Amoxicillin - 1st line for AOM and sinusitis

Augmentin - 1st line fx for bites, UTI in pregnancy

Question 18

Adverse drug reactions of penicillins

Answer 18

• serious allergic reaction
• Rash
• GI (N/V/D)
• Fungal overgrowth/candidiasis

Question 19

Cephalosporin MOA

Answer 19

• Inhibit mucopeptide synthesis in the bacterial cell wall
• Bactericidal

Question 20

How does spectrum of activity differ between classes of cephalosporins?

Answer 20

Earlier generations have good gram + coverage and less gram - coverage

Later generations have better gram - coverage and less gram + coverage

Question 21

Cephalosporins Adverse Drug Reactions

Answer 21

• C. diff
• hypersensitivity rx
• hemolytic anemia
• neutropenia and leukopenia
• coagulation abnormalities

Question 22

Cephalosporins cautions

Answer 22

• cross reactivity with history of penicillin allergy with anaphylaxis or hypersensitivity reaction
• safe in pregnancy/lactation and pediatrics
• The stronger the drug (5th generation is strongest; 1st generation is weakest) - the more chance of a C. Diff infection

Question 23

What drugs are in the glycopeptide class?

Answer 23

Vancomycin and Lipoglycopeptides

Question 24

Vancomycin MOA and indication

Answer 24

• Inhibits cell wall synthesis by binding to the D-A1a-D-A1a protein in the cell wall
• Bactericidal
• Not well absorbed orally, given IV except for C. diff
• Stays in the GI tract
• First line for C. diff. infection

Question 25

Vancomycin (oral) Adverse Drug Reactions

Answer 25

• Ototoxicity
• Nephrotoxicity
• Red Man Syndrome
• Thrombocytopenia

Question 26

Tetracyclines mechanism of action and indications

Answer 26

Tetracycline and Doxycycline

• Inhibit protein synthesis by reversibly binding to the 30S subunit of the bacterial ribosome
• Bacteriostatic
• Indications include mild to moderate respiratory infections, acne, Lyme disease, and chlamydia

Question 27

Tetracyclines cautions and adverse drug reactions

Answer 27

• Preg Cat D -
• avoid in children < 8 years old due to teeth discoloring
• nephrotoxic
• photosensitivity
• hepatotoxicity

Question 28

Tetracyclines patient teaching

Answer 28

Take with a full glass of water - do not take with milk or milk products (binds to calcium)

Can cause stomach upset/esophagitis

Wear sunscreen

Question 29

Macrolides mechanism of action and indications

Answer 29

Azithromycin, Erythromycin, Clarithromycin

• Effective against gram + and gram - organisms
• Bacteriostatic (can be bactericidal at higher doses)
• Inhibits RNA-dependent protein synthesis by binding to the 50S subunit

1st line CAP

1st line pertussis

1st line chlamydia

Question 30

Macrolides adverse drug reactions

Answer 30

• potent CYP450 inhibitor
• combination with statins may increase risk of myopathy
• skin rash urticaria, bullous eruptions, eczema, and Steven Johnsons syndrome
• GI distress (esp. E-mycin)
• QT prolongation (Azithromycin)

Question 31

Lincosamides mechanism of action and indications

Answer 31

Clindamycin

• Gram + organisms
• inhibits protein synthesis by binding to the 50S subunit of bacterial ribosome
• bacteriostatic
• MRSA skin infections, dental infections, acne (topical)

High risk for C. Diff

Question 32

Clindamycin patient education

Answer 32

• Call clinic if diarrhea occurs (high risk for C. diff infection)

Question 33

Nitroimidazoles Mechanism of Action and Example

Answer 33

Metronidazole, Tinidazole

Disrupts electron transport of anaerobic bacteria

Indications: bacterial vaginosis, trichomoniasis - more for fungal, protozoan, parasitic infections - not as much bacterial

Question 34

Nitroimidazoles Adverse Reactions

Answer 34

Seizures

Peripheral neuropathy

Question 35

Metronidazole Mechanism of Action and Indications

Answer 35

Flagyl

• Interacts with DNA structure causing strand breakage, inhibition of protein synthesis, and cell death
• Bacteriostatic
• Broad spectrum (bacterial and parasitic)

Indications: C. diff, bacterial vaginosis, stool infections, trichomoniasis (think below the belt infections) - anaerobic, protozoans, fungals

Question 36

Metronidazole Adverse Drug Reactions

Answer 36

• metallic taste
• dark urine
• hepatotoxicity
• superinfections (rare)
• disufiram like reaction with ETOH
• Black Box Warning: possibly carcinogenic

Question 37

Metronidazole cautions/patient education

Answer 37

• do not use in the 1st trimester of pregnancy
• avoid alcohol during and for 2 days after tx (can cause disulfiram rx: N/V, H/A, flushing, dizziness, chest and abdominal discomfort)

Question 38

Nitrofurantoin Mechanism of Action and Indications

Answer 38

• Multifactorial MOA
• Bacteriostatic in low concentrations, Bactericidal in higher concentrations

May inhibit acetyl coenzymes - interferes with bacterial protein synthesis, cell wall synthesis, and aerobic energy metabolism Indications:

Indication: uncomplicated UTI (1st line), not indicated in complicated infections or pyelonephritis

Question 39

Nitrofurantoin Adverse Drug Reactions

Answer 39

• neuropathy
• pulmonary reactions

Question 40

Fluoroquinolones Mechanism of Action and Indications

Answer 40

Ciprofloxacin, Levofloxacin

• Interferes with bacterial enzymes required for the synthesis of bacterial DNA
• Breakage of DNA strands

Indications: Complicated infections

• pyelonephritis (1st line)
• complicated UTIs
• CAP (3rd line)

Question 41

Fluoroquinolones cautions/CIs

Answer 41

• Black box warning: risk of tendon rupture and tendonitis
• risk of QT prolongation
• seizures
• dizziness and confusion
• photosensitivity
• no children < 18 (unless pyelonephritis, anthrax, allergies to other meds)
• not for use in pregnancy and lactation
• high risk of superinfection (C. diff and candida)
• increasing resistance, do not use for minor uncomplicated infections

Question 42

Sulfonamides/Trimethoprim Mechanism of Action and Indications

Answer 42

Sulfonamides block folic acid synthesis

• Trimethoprim inhibits DNA synthesis
• UTI
• Community acquired MRSA
• excellent gram negative coverage and coverage of stap/strep (gram +)

Question 43

Sulfonamides/Trimethoprim Adverse Drug Reactions

Answer 43

• Hypersensitivity reactions: rash, fever, Stevens-Johnson syndrome (more common in HIV + patients)
• Not for use in pregnancy (anti-folate effects)
• Avoid in pediatrics < 2 months old
• Hyperkalemia (reduces K+ excretion)
• Avoid concomitant administration with K+ sparing drugs (triamterene, ACE, ARB)

Question 44

MRSA skin and soft tissue infections

Answer 44

High risk in military, students, athletes, and inpatient populations

Question 45

Mupirocin

Answer 45

Used topically to treat impetigo 3x/day for 5-14 days for up to 5 lesions

Cephalexin (oral) if there are 5 or more impetigo lesions

Question 46

Oral medication options for skin lesions

Answer 46

• give if moderate to severe impetigo (5 or more lesions), boils, perianal strep, cellulitis cephalexin, bactrim (amox/clavulanate), dicloxacillin If MRSA skin infection is suspected: CBD (cephalexin, bactrim, doxycycline)

Question 47

Carbapenums Mechanism of Action and Examples

Answer 47

Eg: Imipenem, meropenem, etrapenem, doripenem

Impair bacterial wall structure

Question 48

Carbapenem Adverse Effects

Answer 48

Diarrhea, rash, seizure

Question 49

Monobactams Mechanism of Action and Examples

Answer 49

Aztreonam

Interfers with bacterial cell wall

Question 50

Monobactram adverse effects

Answer 50

Diarrhea, rash, anaphylaxis

Question 51

Aminogylcosides Mechanism of Action and Examples

Answer 51

Gentamicin, Tobramycin, Amikacin

Inhibits bacterial DNA synthesis/replication

Question 52

Aminogylcoside adverse effects

Answer 52

Nephrotoxic, ototoxic, neuromuscular blockade

Question 53

Oxazolidinones Examples and Mechanism of Action

Answer 53

Linezolid, Tedizolid

Inhibits ribosomal proteins

Question 54

Oxazolidinones Adverse Effects

Answer 54

Bone marrow suppression

Peripheral neuropathy

Optic neuropathy

Lactic acidosis

Question 55

Lipopeptide Example and Mechanism of Action

Answer 55

Daptomycin

Accumulates in cell membrane of G+ organisms

Question 56

Daptomycin Adverse Effects

Answer 56

Thrombocytopenia

Skeletal muscle toxicity

Question 57

Polypeptides Mechanism of Action and Example

Answer 57

Colistin

Disrupts outer membrane of G- organisms

Question 58

Polypeptides Adverse Effects

Answer 58

Nephrotoxicity

Reversible neurotoxicity

Question 59

Rifamycins Mechanism of Action and Examples

Answer 59

Rifampin, rifabutin, rifaximin

Block RNA polymerase from interacting with DNA

Question 60

Rifamycins Adverse Effects

Answer 60

Discoloration of body fluids

Hepatotoxicity

Drug-drug interactions