Chapter 22 - Infectious Disease I - Background & Antibiotics by drug class

Question 1

Should you treat a bacterial urine infection if the patient is asymptomatic?
On what should you reply on in order to diagnose?

Answer 1

The presence of an infection is determined by signs and symptoms. For example, the presence of bacteria in a urine culture does not mean there is an infection.

The diagnosis is based on symptoms (e.g., dysuria, urgency, leukocytosis, fever) plus a positive urine culture.

Question 2

Antibiotic characteristics:
The spectrum of activity & the Ability to penetrate the site of infection depends on what?

Answer 2

Antibiotic characteristics include:
- The spectrum of activity
- Ability to penetrate the site of infection

– Lipophilic antimicrobials have better tissue penetration.
– Antibiotics that are not cleared renally may not achieve adequate drug concentrations in the urine.

Question 3

What are the patient characteristics that impact treatment choices?

Answer 3

• Age
• Body weight
• Renal and hepatic function
• Allergies
• Recent antibiotic use
• Colonization with resistant bacteria
• Recent environmental exposure
• Vaccination status
• Pregnancy status
• Immune function
• Comorbid conditions

Question 4

What is an Empiric Treatment and how do you choose it?

Answer 4

• Antibiotics are often started before the pathogen is identified.
• Broad- spectrum and is based on a best guess of the likely organisms causing the infection.
• Local resistance patterns (antibiogram) and antibiotic use guidelines should be considered when selecting empiric treatment.

Question 5

Common Bacterial Pathogens for Select Sites of Infection:
CNS/ Meningitis

Answer 5

1) Streptococcus pneumoniae
2) Neisseria meningitidis
3) Haemophilus influenzae
4) Group B Streptococcus/ E.coli (young)
5) Listeria (young/ old)

Question 6

Common Bacterial Pathogens for Select Sites of Infection:
Upper Respiratory

Answer 6

1) Streptococcus pyogenes
2) Streptococcus pneumoniae
3) Haemophilus influenzae
4) Moraxella catarrhalis

Question 7

Common Bacterial Pathogens for Select Sites of Infection: Mouth

Answer 7

1) Mouth flora (Peptostreptococcus)
2) Anaerobic GNR (Prevotella,others)
3) Viridans group Streptococci

Question 8

Common Bacterial Pathogens for Select Sites of Infection: Lower Respiratory (Community)

Answer 8

1) Streptococcus pneumoniae
2) Haemophilus influenzae
3) Atypicals: Legionella, Mycoplasma, Chlamydophilia
4) Enteric GNR (alcoholics)

Question 9

Common Bacterial Pathogens for Select Sites of Infection: Lower Respiratory (Hospital)

Answer 9

1) Staphylococcus aureus, including MRSA
2) Pseudomonas aeruginosa
3) Acinetobacter baumannii
4) Enteric GNR (including ESBL, MDR)
5) Streptococcus pneumoniae

Question 10

Common Bacterial Pathogens for Select Sites of Infection: Heart/Endocarditis

Answer 10

1) Staphylococcus aureus, including MRSA
2) Staphylococcus epidermidis
3) Streptococci
4) Enterococci

Question 11

Common Bacterial Pathogens for Select Sites of Infection: Intra-abdominal

Answer 11

1) Enteric GNR
2) Enterococci
3) Streptococci
4) Bacteroids sp

Question 12

Common Bacterial Pathogens for Select Sites of Infection: Skin/Soft Tissue

Answer 12

1) Staphylococcus aureus
2) Streptococcus pyogenes
3) Staphylococcus epidermidis
4) Pasteurella multocida = aerobic/anaerobic GNR (in diabetes)

Question 13

Common Bacterial Pathogens for Select Sites of Infection: Bone/Joint

Answer 13

1) Staphylococcus aureus
2) Staphylococcus epidermidis
3) Streptococci
4) Neisseria gonorrhoeae
5) GNR (only in specific situations)

Question 14

Common Bacterial Pathogens for Select Sites of Infection: Urinary Tract

Answer 14

1) E. coli
2) Proteus
3) Klebsiella
4) Staphylococcus saprophyticus
5) Enterococci

Question 15

Gram stain

Answer 15

Gram +: blue/ purple
Gram -: Pink
Atypical: do not stain

Question 16

Gram-Positive Shapes + organisms

Answer 16

Cocci:
1) Staph coccus sp: MRSA, MSSA

2) Pairs & chains:
- Strep. pneumoniae (diplococci)
- Streptococcus spp. (Strep. pyogenes)
- Enterococcus spp. (including VRE)

Rods:
- Listeria
- Monocytogenes
- Corynebactenum spp.

Anaerobes:
- Peptostreptococcus
- Propionibacterium acnes
- Clostridioides spp.

Question 17

Gram -ve Shapes & organisms

Answer 17

Cocci:
- Nisseria

Cocco bacilli
- Acinetobacter baumannii
- Bordetella pertussis
- Moraxella catarrhalis

Rods
1) Colonize gut “Enteric”
- Proteus mirabilis
- Escherichia coli
- Klebsiella spp.
- Serratia spp.
- Enterobacter cloacae
- Citrobacter spp
2) Do not colonize gut
- Pseudomonas aeruginosa
- Haemophilus influenzae
-Providencia spp.
3) Curved or spiral shaped Gram-negative rods
- H. pylori
- Campylobacter spp.
- Treponema spp.
- Borrelia spp.
- Leptospira spp.

Anaerobes
- Bacteroids fragilis
- Prevotella spp.

Question 18

Atypicals (do not Gram stain well)

Answer 18

• Chlamydia spp.
• Legionella spp.
• Mycoplasma pneumoniae
• Mycobacterium tuberculosis

Question 19

Whats the function of lactose?

Answer 19

• Gram-negative bacteria (E. coli) break down lactose (a sugar) in a unique way and some do not (Pseudomonas).
• Lactose can be used to help determine the types of bacteria that may be present.

Question 20

Give an example of synergy.

Answer 20

• Aminoglycosides and beta-lactams can be used together synergistically to treat certain invasive Gram-positive infections (Infective endocarditis);
• The beta-lactam allows the aminoglycoside to reach its intracellular target (the ribosome), where it causes lethal damage to the bacteria.

Both are hydrophilic
- Beta lactam: inhib cell wall
- Aminoglycoside: inhib protein synthesis (Ribosome)

Question 21

Antibiotics treatment thought process

Answer 21

1) Empiric Treatment:
- Likely organisms at the infection site (Lower respiratory tract, CNS, skin/soft tissue)
- Is the patient at risk for MRSA? MDR bacteria? (cover if yes)
- Use the antibiogram and Gram stain (if available) to guide the treatment selection.

2) Streamline
- C & S results are available –> narrow-spectrum antibiotics; if > 1 organism is present, try to find one antibiotic that will treat both.
- Consider IV:PO conversion if the patient is eating normally and there is an appropriate oral drug (that can penetrate the infection site).

3) Assess the Patient
- Throughout treatment, monitor for improvement
- The patient’s condition can override the culture information (If no improvement, perhaps an unidentified organism is the cause of the illness).
- With all antibiotics, set the duration of treatment; do not let antibiotics continue if not necessary.

Question 22

ASSESSMENT OF TREATMENT: MONITORING TREATMENT RESPONSE

Answer 22

• Clinical status of the patient:
  1. Fever trend and other vital signs depending on the infection (O2 saturation in pneumonia)
  2. WBC trend
  3. Reduction in Sx of infection (Improved mentation in meningitis, dec pain/inflammation in cellulitus)
• Radiographic findings (chest X-ray results)
• Repeat cultures negative (particularly blood and CNS cultures; sputum and urine cultures do not need to be repeated)
• Decreased markers of inflammation:
  – Procalcitonin levels (more specific to bacterial infections)
  – C-reactive protein (CRP)
  – Erythrocyte sedimentation rate (ESR)

Question 23

REASONS FOR LACK OF RESPONSE:

Answer 23

1) Antibiotic factors
- Inadequate spectrum and/or dose
- Poor tissue penetration
- Drug-drug interactions
- Non-adherence
- Inadequate duration of treatment
- Inability to tolerate/ toxicity

2) Microbiologic factors
- Resistance
- Superinfection (C diff)
- Alternative etiology (viral, fungal, noninfectious cause (CHF exacerbation vs. pneumonia)]

3) Host factors
- Uncontrolled source of infection (Abscessor fluid collection, implanted devices with biofilm)
- Immunocompromised

Question 24

Intrinsic resistance:

Answer 24

The resistance is natural to the organism.

For example, E. coli is resistant to vancomycin because this antibiotic is too large to penetrate the bacterial cell wall of E. coli.

Question 25

Selection pressure:

Answer 25

Resistance occurs when antibiotics kill off susceptible bacteria, leaving behind more resistant strains to multiply.

Ex: normal GI flora includes Enterococcus.

When antibiotics (Vancomycin) eliminate susceptible Enterococci, vancomycin-resistant enterococcus (VRE) can become predominant.

Question 26

Acquired resistance:

Answer 26

• Bacterial DNA containing resistant genes can be transferred between different species and/or picked up from dead bacterial fragments in the environment.

Question 27

Enzyme inactivation:

Answer 27

Enzymes produced by bacteria break down the antibiotic.
1) Beta-lactamases break down beta-lactams (penicillins only)
- Beta-lactamase inhibitors (clavulanate, sulbactam, tazobactam, avibactam)

2) Extended-spectrum beta-lactamases (ESBLs) are beta-lactamases that can break down all penicillins and most cephalosporins.
- Treated with carbapenems or newer cephalosporin/ beta-lactamase inhibitors.

3) Carbapenem-resistant Enterobacteriaceae (CRE) are MDR Gram-negative organisms (Klebsiella spp., E. coli) that produce enzymes (carbapenemase) capable of breaking down penicillins, most cephalosporins and carbapenems.
- CRE infections typically require treatment with a combination of antibiotics that include drugs such as the polymyxins, which have a high risk for toxicity.
- Newer, costly drugs, such as ceftazidime/ avibactam (Avycaz) are also used.

Question 28

COMMON RESISTANT PATHOGENS

Answer 28

1) Klebsiella pneumoniae (ESBL,CRE)
2) Escherichiacoli (ESBL,CRE)
3) Acinetobacter baumannii
4) Enterococcus faecalis, Enterococcusfaecium (VRE)
5) Staphylococcus aureus (MRSA)
6) Pseudomonas aeruginosa

Remember: Kill Each And Every Strong Pathogen

• ESBL= extended-spectrum beta-lactamase
• CRE= carbapenem-resistan Etnterobacteriaceae
• VRE= vancomycin-resistant Enterococcus

Question 29

CLOSTRIDIOIDES DIFFICILE INFECTION

Answer 29

• abx kill nl flora –> overgrowth in drug resistant organisms + superinfection (C diff)
• Inactive C. difficile spores are present in normal GIflora. When an antibiotic kills off the normal flora, C. difficile spores can become activated, producing toxins that inflame the GI mucosa.
• Sx: mild to severe
• All antibiotics have a warning for the risk of CDI, but the risk is highest with broad-spectrum penicillins and cephalosporins, quinolones, carbapenems, and clindamycin.

Question 30

Antimicrobial stewardship program

Answer 30

1) pharmacokinetic monitoring of aminoglycosides and vancomycin,
2) Use of clinical decision support software to rapidly identify pathogens and shorten the time to starting effective treatment,
3) preauthorization of select antimicrobials,
4) prospective audit and feedback to prescribers of selected antibiotics and
5) timely transitions from IV to PO antibiotics.

Question 31

Abx MOA

Answer 31

1) Bactericidal (kill bacteria)
- Cell wall and cell membrane inhibitors
- DNA/RNA inhibitors
- Aminoglycosides

2) Bacteriostatic (inhibit bacterial growth)
Most protein and folic acid synthesis inhibitors

Question 32

Cell wall inhibitor drugs:

Answer 32

• Beta-lactams (penicillins, cephalosporins, carbapenems)
• Monobactams (aztreonam)
• Vancomycin, dalbavancin, telavancin, oritavancin

Question 33

Cell membrane inhibitor drugs

Answer 33

• Polymyxin
• Daptomycin
• Telavancin
• Oritavancin

Question 34

DNA/ RNA Inhibitor drugs

Answer 34

• Quinolones (DNA gyrase, topoisomerase IV)
• Metronidazole, tinidazole
• Rifampin

(Do not disturb cz the queen aam tekul rifa3i bl metro)

Question 35

Folic acid synthesis inhibitor drugs

Answer 35

• Sulfonamides
• Trimethoprim* (Often combined with sulfamethoxazole to overcome resistance)
• Dapsone

Question 36

Protein synthesis inhibitor drugs

Answer 36

• Aminoglycoside
• Macrolide
• Tetracycline
• Clindamycin
• Linezolid, Tedizolid
• Quinupristin/Dalfopristin

Question 37

HYDROPHILIC AGENTS

Answer 37

Drugs:
1) Beta-lactams
2) Aminoglycasides
3) Glycopeptides
4) Daptomycin
5) Polymyxins

Characteristics:

1) Small volume of distribution - Poor tissue penetration

2) Renal elimination - Drug accumulation and side effects (nephrotoxicity, seizures) can occur if not dose adjusted

3) Low intracellular concentrations - Not active against atypical (intracellular) pathogens

4) Increased clearance and/or distribution in sepsis - Consider loading doses and aggressive dosing in sepsis

5) Poor/ moderate bioavailablity. Not used PO or IV:PO ratio is not 1:1

Question 38

LIPOPHILIC AGENTS

Answer 38

Drugs:
1) Quinolones
2) Macrolides
3) Rifampin
4) Linezolid
5) Tetracyclines

Characteristics:

1) Large volume of distribution - Excellent tissue penetration including bone, lung, brain tissue.

2) Hepatic metabolism - Potential for hepatotoxicity & DDIs

3) Achieve intracellular concentration: Active against atypical intracellular pathogens

4) Clearance/distibution is changed minimally in sepsis. Dose adjustment is generally not needed in sepsis

5) Excellent bioavailablity. IV:PO ratio is often 1:1

Question 39

DOSE OPTIMIZATION
Concentration VS Time dependent killing

Answer 39

1) Concentration-dependent killing (aminoglycosides):
- Dosed less frequently &
- Higher doses
- Maximize the concentration above the MIC

2) Time-dependent killing (Beta-lactams)
- Dosed more frequently or
- Administered for a longer duration
- Maximize the time above the MIC
– Extending the infusion time of beta-lactam antibiotics (from 30 minutes to 4 hours) or administering the drug as a continuous infusion.
– Studies have documented that extended/continuous infusions of beta-lactams reduce hospital length of stay, mortality and costs, particularly when treating pneumonia caused by MDR Gram-negative pathogens like Pseudomonas.

Question 40

Cmax:MIC (concentration-dependent)
- Drugs
- Goal

Answer 40

• Aminoglycosides
• Quinolones
• Daptomycin

Goal:
– High peak (inc killing)
– Low trough (dec toxicity)
Dosing strategies: large dose, long interval

Question 41

AUC:MIC (exposure-dependent)

Answer 41

• Vancomycin (cell wall inh)
• Macrolides (protein synth inh)
• Tetracyclines (//)
• Polymyxins (Cell membrane inh)

Goal: exposure over time
Dosing strategies: variable

Question 42

Time> MIC (time-dependent}

Answer 42

Beta-lactams (penicillins, cephalosporins, carbapenems)

Goal: maintain drug level> MIC for most of the dosing interval
Dosing strategies: shorter dosing interval, extended or continuous infusions

Question 43

BETA-LACTAM ANTIBIOTICS MOA

Answer 43

• Beta-lactam antibiotics have a chemical structure that is characterized by a beta-lactam ring.
• They inhibit bacterial cell wall synthesis by binding to penicillin- binding proteins (PBPs).
• This prevents the final step of peptidoglycan synthesis in bacterial cell walls.

1) Penicillins
2) Cephalosporins
3) Carbapenems

Question 44

Penicillin Coverage

Answer 44

1) Natural penicillins:
- Gram-positive cocci: Streptococci
- Gram-positive cocci: Enterococci
- Gram-positive anaerobes (mouth flora)

– No Gram-negative
– No Gram-positive cocci: Staphylococci
– No MRSA (Methicillin Resistant Staphylococcus aureus)
– No atypical organisms

2) Antistaphylococcal penicillins
- Gram-positive cocci: Streptococci
- Gram-positive cocci: Methicillin-susceptible Staphylococcus aureus (MSSA)

– No Enterococcus
– No Gram-negative
– No anaerobes

3) Aminopenicillins
- Streptococci
- Enterococci
- Gram-positive anaerobes (mouth flora)
+
- Gram-negative bacteria (Haemophilus, Neisseria, Proteus and E, coli) (HNPE)

4) Aminopenicillins + beta-lactamase inhibitors (clavulanate, sulbactam and tazobactam)
- Streptococci
- Enterococci
- Gram-positive anaerobes (mouth flora)
- Gram-negative bacteria (Haemophilus, Neisseria, Proteus and E, coli)
+
- MSSA
- More resistant strains of Gram-negative bacteria [Haemophilus, Neisseria, Proteus, E. coli and Klebsiella (HNPEK)
- Gram-negative anaerobes (B. fragilis)

5) Extended-spectrum penicillins + beta-lactamase inhibitor (piperacillin/tazobactam):
- Streptococci
- Enterococci
- Gram-positive anaerobes (mouth flora)
- MSSA
- More resistant strains of Gram-negative bacteria [Haemophilus, Neisseria, Proteus, E. coli and K!ebsiella (HNPEK)
- Gram-negative anaerobes (Bacteroides fragilis)
+
- Gram-negative (Expanded coverage) (Citrobacter, Acinetobacter, Providencia, Enterobacter, Serratia (CAPES)
- & Pseudomonas aeruginosa.

– Penicillins do not cover MRSA

Question 45

Natural Penicillins

Answer 45

• Penicillin V Potassium (Pen VK) PO (Empty stomach)
• Penicillin G Aqueous (Pfizerpen) IV
• Penicillin G Benzathine (Bicillin L-A) IM
• Penicillin G Benzathine & Penicillin G Procaine (Bicillin C-R) IM
  – not IV; can cause cardiorespiratory arrest/ death

Coverage:
- Gram-positive cocci: Streptococci
- Gram-positive cocci: Enterococci
- Gram-positive anaerobes (mouth flora)

Question 46

Anti staphylococcal Penicillins

Answer 46

• Dicloxacillin PO
• Nafcillin IV/ IM
• Oxacillin: IV

Coverage:
- Gram-positive cocci: Streptococci
- Gram-positive cocci: Methicillin-susceptible Staphylococcus aureus (MSSA)

• Preferred for MSSA soft tissue, bone and joint, endocarditis and bloodstream infections
• No renal dose adjustments
• Nafcillin is a vesicant - administration through a central
  line is preferred; if extravasation occurs, use cold packs and hyaluronidase injections

Question 47

Aminopenicillins

Answer 47

• Amoxicillin (Moxatag) PO, chewable
• Amoxicillin/Clavulanate (Augmentin, Augmentin ES-600) PO, Chewable
• Ampicillin: PO/ IV/ IM
• Ampicillin/Sulbactam (Unasyn): IV

Coverage:
- Streptococci
- Enterococci
- Gram-positive anaerobes (mouth flora)
+
- Gram-negative bacteria (Haemophilus, Neisseria, Proteus and E, coli) (HNPE)

(+ B lactamase inhibitor)
+
- MSSA
- More resistant strains of Gram-negative bacteria [Haemophilus, Neisseria, Proteus, E. coli and Klebsiella (HNPEK)
- Gram-negative anaerobes (B. fragilis)

Notes:

• Ampicillin PO is rarely used due to poor bioavailability; amoxicillin is preferred if switching from IV ampicillin
• Amoxicillin/clavulanate: use a 14:1 ratio to dec diarrhea caused by the clavulanate component
• IV ampicillin and ampicillin/sulbactam must be diluted in NS only

Question 48

Extended-Spectrum Penicillins

Answer 48

• Piperacillin/Tazobactam (Zosyn)
  Prolonged or extended IV infusions
• Piperacillin/tazobactam contains 65 mg Na per 1 gram of piperacillin
• each dose infused over 4 hours

Coverage:
- Streptococci
- Enterococci
- Gram-positive anaerobes (mouth flora)
- MSSA
- More resistant strains of Gram-negative bacteria [Haemophilus, Neisseria, Proteus, E. coli and K!ebsiella (HNPEK)
- Gram-negative anaerobes (Bacteroides fragilis)
+
- Gram-negative (Expanded coverage) (Citrobacter, Acinetobacter, Providencia, Enterobacter, Serratia (CAPES)
- Pseudomonas aeruginosa.

Question 49

CONTRAINDICATIONS with aminopenicillins

Answer 49

Augmentin and Unasyn:
History of cholestatic jaundice or hepatic dysfunction associated with previous use

Severe renal impairment (CrCI < 30ml/min):
- Do not use ER PO amoxicillin and amoxicillin/ clavulanate (Augmentin XR)
- Or the 875 mg strength of amoxicillin/clavulanate

Question 50

SIDE EFFECTS with penicillins

Answer 50

• Seizures (with accumulation when not correctly dose adjusted in renal dysfunction)
• GI upset
• Diarrhea
• Rash (including SJS/TEN)/ allergies/ anaphylaxis
• Hemolytic anemia (identified with a positive Coombs test)
• Renal failure
• Myelosuppression with prolonged use
• Inc LFT

Question 51

Monitoring with Penicillin

Answer 51

• Renal function
• Symptoms of anaphylaxis with 1st dose
• CBC and LFTs with prolonged courses

Question 52

Penicillin Drug Interactions

Answer 52

■ Probenecid can inc the levels of beta-lactams by interfering with renal excretion.
- This combination is sometimes used intentionally in severe infections to inc antibiotic levels.

■ Beta-lactams (except nafcillin and dicloxacillin) can enhance the anticoagulant effect of warfarin by inhibiting the production of vitamin K-dependent clotting factors.
- Nafcillin and dicloxacillin can inhibit the anticoagulant effect of warfarin.

■ Penicillins can inc the serum concentration of methotrexate;
- They can dec the serum concentration of mycophenolate active metabolites due to impaired enterohepatic recirculation.

Question 53

CLASS EFFECT

Answer 53

All penicillins should be avoided in patients with a beta-lactam allergy

Exceptions:
- Treatment of syphilis during pregnancy (all patients) and
- In HIV patients with poor compliance/follow-up

–> desensitize and treat with penicillin G benzathine

• All penicillins increase the risk of seizures if accumulation occurs (failure to dose adjust in renal dysfunction)

Question 54

OUTPATIENT (ORAL) Penicillin Drugs

Answer 54

Penicillin VK
■ A first-line treatment for strep throat and mild nonpurulent skin infections (no abscess)

Amoxicillin
- First-line treatment for acute otitis media (pediatric dose: 80-90 mg/kg/day)
- Drug of choice for infective endocarditis prophylaxis before dental procedures (2 grams PO x 1, 30-60 minutes before procedure)
- Used in H. pylori treatment*

Amoxicillin/Claulanate (Augmentin)
■ First-line treatment for acute otitis media (pediatric dose: 90 mg/kg/day) and for sinus infections (if antibiotics indicated)
■ Use the lowest dose of clavulanate to dec diarrhea

Dicloxacillin
■ Covers MSSA only (no MRSA)
■ No renal dose adjustment needed

Question 55

INPATIENT (PARENTERAL) Penicillin drugs

Answer 55

Penicillin G Benzathine (Bicillin L·A)
■ Drug of choice for syphilis (2.4 million units IM x 1)
■ Not for IV use; can cause death

Nafcillin and Oxacillin
■ Covers MSSA only (no MRSA)
■ No renal dose adjustment needed

Piperacillin/ Tazobactam (Zosyn)
- Only penicillin active against pseudomonas
- Extended infusion over 4 hrs can be used to maximize T > MIC

Question 56

CEPHALOSPORINS as a class, they do not cover:

Answer 56

• Enterococcus
• Atypicals

Question 57

1st G Ceph:

Answer 57

Drugs:

• Cefazolin
• Cefalexin (Keflex): PO 250 - 500 mg q 6 - 12h
• Cefadroxil

Coverage:

• Excellent activity against: (DOC btwn ceph)
  – MSSA (Staph)
  – Streptocossus
• Some activity (not good):
  – Gram Negative: Proteus, E. coli, Klebsiella (PEK)

Question 58

2nd G Ceph:

Answer 58

Drugs:

• Cefuroxime (fur kello shaaer
• Cefotetan (Cefotan) (fet hitan)
• Cefaclor (fac)
• Cefoxitin (fok)
• Cefprozil (pro)

Coverage:

1) Cefuroxime:
- Staphylococci
- More resistant strains of S. pneumoniae
- Gram -ve: Haemophilus, Neisseria, Proteus, E.coli and Klebsiella (HNPEK).

2) Cefotetan and cefoxitin:
- Have added coverage of G-ve anaerobes (B. fragilis)

Question 59

3rd G Ceph:

Answer 59

Group 1:
- Cefdinir PO
- Ceftriaxone (Rocefine) IV/IM
- Cefotaxime IV/IM
- Cefditoren PO
- Cefixime PO
- Cefopodoxime PO
- Ceftibuten PO

Coverage:
Ceftriaxone, cefotaxime and oral drugs:
- Resistant Streptococci (S. pneumoniae and viridans)
- Staphylococci (MSSA)
- G +ve anaerobes (mouth flora)
- Resistant strains of HNPEK

Group 2:
- Ceftazidime (Fortaz)
Coverage:
- No G +ve activity
- Covers Pseudomonas

Question 60

4th G Ceph

Answer 60

Cefepime

• Broad G -ve activity:
  – HNPEK
  – CAPES
  – Pseudomonas
• G +ve activity similar to ceftriaxone:
  – Resistant Streptococci (S. pneumoniae and viridans)
  – Staphylococci (MSSA)
  – G +ve anaerobes (mouth flora)

Question 61

5th G

Answer 61

Ceftaroline Fosamil (Teflaro)

• G -ve activity similar to ceftriaxone
  — Resistant strains of HNPEK
• Broad G +ve
• Only beta-lactam that covers MRSA

Question 62

Ceph & Beta-lactamase inhibitor combinations:

Answer 62

• Ceftazidime/avibactam
• Ceftolozane/ tazobactam

Have a similar spectrum as ceftazidime but with added activity against MDR Pseudomonas and other MDR Gram-negative rods.

Coverage:
- No G+ve
- Pseudomonas
- MDR Pseudomonas
- MDR G -ve rods

Question 63

Siderophore cephalosporin:

Answer 63

• Cefiderocol (Fetroja)
• Uses the iron transport system to enter the G -ve cell wall.
• It is approved for complicated UTI/ pyelonephritis
• Coverage:
  – E.coli
  – Enterobacter
  – Klebsiella
  – Proteus
  – Pseudomonas

Question 64

Cephalexin

• Brand
• Dose

Answer 64

• Keflex
• PO: 250 - 500 mg q 6 - 12 hrs

Question 65

CONTRAINDICATIONS (CEFTRIAXONE)

Answer 65

• Hyperbilirubinemic neonates (causes biliary sludging, kernicterus (Bilirubin induced brain dysfunction))
• Concurrent use with calcium-containing IV products in neonates <= 28 days old

Question 66

Warnings with cephalosporin

Answer 66

• Cross-sensitivity with PCN allergy (< 10 % higher risk with 1st G ceph):
  Do not use in pts with type 1 hypersensitivity to PCN (swelling, angioedema, anaphylaxis)
• Cefotetan contains a side chain [N-methylthiotetrazole (NMTT or 1-MTT)] which can inc the risk of bleeding & cause a disulfiram-like reaction with alcohol ingestion
• Anaphylaxis/ hypersensitivity reactions
• Some drugs can inc INR in patients taking warfarin

Question 67

SE of Ceph

Answer 67

• Seizures (with accumulation when not correctly dose
  adjusted in renal dysfunction)
• GI upset, diarrhea
• Rash/allergic reactions/anaphylaxis
• Acute interstitial nephritis
• Hemolytic anemia (identified with a positive Coombs test)
• Myelosuppression with prolonged use, inc LFTs, drug fever, serious skin reactions (SJS/TEN)

Question 68

Monitoring of Ceph

Answer 68

• Renal function
• Signs of anaphylaxis with 1” dose
• CBC
• LFTs

Question 69

Notes with Ceph
- All cephs require renal adjustment except:
- Ceftazidime/ Avibactam has activity against:
- How should you adjust Cefiderocol with renal function?

Answer 69

• Ceftriaxone:
  – No renal adjustment
  – CNS penetration at high doses (2 grams Q12H) when meninges inflamed
• Cefixime available in a chewable tablet
• Ceftazidime/avibactam:
  Activity against some carbapenem-resistant Enterobacteriaceae (CRE)
• Cefiderocol (Fetroja):
  Increase to 2 grams Q6H if CrCI >= 120 ml/min

Question 70

Ceph combination

Answer 70

Ceftazidime/ Avibactam
Ceftolozane/ Tazobactam

Question 71

Cephalosporin Drug Interactions

Answer 71

• Drugs that dec stomach acid can dec the bioav of some oral ceph.
• Cefuroxime, cefpodoxime, cefdinir and cefditoren should be separated by two hours from short-acting antacids.
  H2RAs and PPis should be avoided.
• Insoluble precipitates may form when ceftriaxone is administered with calcium-containing IV fluids (do not use together in neonates).
• In adults, the IV line should be flushed with a compatible fluid between administration of each product.

Question 72

Class effect Ceph

Answer 72

■ Due to a small risk of cross-reactivity, do not choose a ceph on the exam if the patient has a penicillin allergy
– exception: pediatric patients with acute otitis media

■ Risk of seizures if accumulation occurs (failure to dose adjust in renal dysfunction)

Question 73

OUTPATIENT (ORAL) common uses
1) Cefalexin (Keflex)
2) Cefuroxime
3) Cefdinir

Answer 73

1st Generation: Cephalexin (Keflex)
■ Common uses: skin infections (MSSA), strep throat

2nd Generation: Cefuroxime
■ Common uses: acute otitis media, community acquired pneumonia (CAP), sinus infection (if antibiotics indicated)

3rd Generation: Cefdinir
■ Common uses: CAP, sinus infection (if antibiotics indicated)

Question 74

INPATIENT (PARENTERAL) Ceph common uses
1) Cefazolin
2) Cefotetan, Cefoxitin
3) Ceftriaxone, Cefotaxime

Answer 74

1st Generation: Cefazolin
■ Common use: surgical prophylaxis

2nd Generation: Cefotetan and Cefoxitin
■ Anaerobic coverage (B.fragilis)
■ Common use: surgical prophylaxis (colorectal procedures)
■ Cefotetan can cause a disulfiram-like reaction with alcohol ingestion

3rd Generation: Ceftriaxone and Cefotaxime
■ Common uses: CAP, meningitis, spontaneous bacterial peritonitis, pyelonephritis

■ Ceftriaxone
- No renal dose adjustment
- Do not use ceftriaxone in neonates (age 0-28 days)

Ceftazidime (3rd Generation) and Cefepime (4th Generation)
■ Active against Pseudomonas

Ceftolozane/ Tazobactam and Ceftazidime/ Avibactam
■ Used for MDR G -ve organisms (including Pseudo)

Ceftaroline
■ Only beta-lactam active against MRSA
■ Common uses: CAP, skin and soft tissue infections

Question 75

When studying the carbapenems (on the next page), think of how you would approach a case on the exam in which one of the answer choices is Invanz 1 gram IV Q24H.

How can you decide if this is the best answer choice?

Assess the following, using the underlined information in the carbapenem drug table:

Answer 75

• Allergies:
  if the patient has a penicillin allergy, there is likely a better answer choice because of the possibility of cross-reactivity.
• Culture and susceptibility:
  if the culture is growing ESBL-positive £. coli, ertapenem may be a good choice.
  If Pseudomonasis growing, ertapenem can be immediately ruled out based on a lack of activity against this pathogen.
• Past medical history and medication profile:
  if the patient has a history of seizures or takes a seizure drug, such as phenytoin, there is likely a better choice than a carbapenem, which can increase the risk for seizures.

Question 76

CARBAPENEMS coverage

Answer 76

• Very broad spectrum
• Reserved for MDR Gram-negative infections
• Active against most Gram-positive, Gram-negative (including ESBL-producing bacteria) and anaerobic pathogens
• They provide no coverage of atypical pathogens, MRSA, VRE ,C.difficile or Stenotrophomonas

Ertapenem is different:
- Has no activity against Pseudomonas, Acinetobacter or Enterococcus

Carbapenem/beta-lactamase inhibitor combinations are typically reserved for highly resistant infections (e.g., CRE) that are not able to be treated with a single entity carbapenem.

Question 77

List the carbapenem drugs

Answer 77

• Doripenem
• lmipenem/Cilastatin
• Meropenem (Merrem)
• Ertapenem (lnvanz)

Question 78

CI to carbapenem

Answer 78

Anaphylactic reactions to beta-lactam antibiotics

Question 79

Warning in carbapenem

Answer 79

• Do not use in patients with PCN allergy (small risk of cross-reactivity)
• CNS adverse effects, including states of confusion and seizures
• Doripenem: do not use for the treatment of pneumonia, including healthcare- associated pneumonia (HAP) and ventilator-associated pneumonia (VAP)

Question 80

SE with Carbapenem

Answer 80

• Diarrhea, rash/severe skin reaction (DRESS)
• Seizures with higher doses and in patients with impaired renal function (mainly imipenem)
• Bone marrow suppression with prolonged use
• Inc LFTs

Question 81

Monitoring with carbapenem

Answer 81

• Renal function
• Symptoms of anaphylaxis with 1st dose
• CBC
• LFTs

Question 82

Why is imipenem combined with cilastatin?

Answer 82

Imipenem is combined with cilastatin to prevent drug degradation by renal tubular dehydropeptidase

Question 83

Ertapenem
- Brand
- For what is it commonly used?

Answer 83

• lnvanz
• Stable in NS only
• No coverage of Pseudomonas, Acinetobacter or Enterococcus
• Commonly used for diabetic foot infections

Question 84

Carbapenem Drug Interactions

Answer 84

■ Carbapenems can dec serum concentrations of valproic acid, leading to a loss of seizure control.

■ Use with caution in patients with a history of seizure disorder, or in combination with other drugs known to lower the seizure threshold (ganciclovir, quinolones, bupropion, tramadol).

Question 85

Class effects of carbapenem

Answer 85

■ All active against ESBL-producing organisms and (except ertapenem) Pseudomonas

■ Do not use with penicillin allergy

■ Seizure risk (with higher doses, failure to dose
adjust in renal dysfunction, or use of imipenem/cilastatin)

Question 86

Remember what Carbapenems do not cover:

Answer 86

■ Atypicals, VRE, MRSA, C. difficile, Stenotrophomonas
■ ErtAPenem does not cover PEA:
- Pseudomonas
- Enterococcus
- Acinetobacter

Question 87

Common uses of carbapenems

Answer 87

■ Polymicrobial infections (severe diabetic foot infection)
■ Empiric therapy when resistant organisms suspected
■ ESBL-positive infections
■ Resistant Pseudomonas or Acinetobacter infx (except ertapenem)

Question 88

How are carbapenems administered?

Answer 88

• All are IV only.
• Ertapenem must be diluted in normal saline.

Question 89

Monobactams drugs

Answer 89

Aztreonam

Question 90

Monobactam
- MOA
- Does it cross react with beta lactams?
- Coverage?

Answer 90

• Similar to beta-lactams
• Inhibits bacterial cell wall synthesis by binding to penicillin- binding proteins (PBPs), which prevents the final step of peptidoglycan synthesis in bacterial cell walls.
• The monobactam structure makes cross-reactivity with a beta-lactam unlikely.
• Aztreonam is primarily used when a beta-lactam allergy is present.
• Aztreonam coverage:
  – Covers many Gram-negative organisms, including Pseudomonas
  – No Gram-positive or anaerobic activity

Question 91

Aztreonam brand

Answer 91

Azactam

• Injection
• Can be used with a penicillin allergy
• CrCI < 30 ml/min: dose adjustment required

Question 92

MRSA coverage

Answer 92

Ceftaroline

Question 93

MSSA S aureus

Answer 93

• Oxacillin
• Nafcillin
• Amox/ Clav
• Amp/ Sulbactam
• Pip/tazo
• Cefazolin
• Cefalexin
• Cefuroxime
• Cefotetan
• Cefoxitine
• Cefotaxime
• Ceftriaxone
• Cefepime
• Ceftaroline
• Ceftazidime/ Avibactam
• Ceftolozane/Tazobactam
• Imipenem/Cilastatin
• Meropenem
• Doripenem
• Ertapenem

Question 94

S. Pneumonia, Viridans group Streptococcus

Answer 94

• Penicillin
• Amoxicillin
• Oxacillin
• Nafcillin
• Amox/ Clav
• Amp/ Sulbactam
• Pip/tazo
• Cefazolin
• Cefalexin
• Cefuroxime
• Cefotetan
• Cefoxitine
• Cefotaxime
• Ceftriaxone
• Cefepime
• Ceftaroline
• Ceftazidime/ Avibactam
• Ceftolozane/Tazobactam
• Imipenem/Cilastatin
• Meropenem
• Doripenem
• Ertapenem

Question 95

Enterococcus (Not VRE)

Answer 95

• Amoxicillin
• Amoxicillin/Clavulanate
• Ampicillin/Sulbactam
• lmipenem/Cilastatin
• Meropenem
• Doripenem

Question 96

PEK (Proteus, E. coli, Klebsiella) (Gram -ve)

Answer 96

• Amoxicillin (No klebsiella coverage)
• Amoxicillin/Clavulanate
• Ampicillin/Sulbactam
• Piperacillin/Tazobactam
• Cefazolin
• Cephalexin
• Cefuroxime
• Cefotetan
• Cefoxitin
• Cefotaxime
• Ceftriaxone
• Ceftazidime
• Aztreonam
• Cefepime
• Ceftaroline
• Ceftazidime/ Avibactam
• Ceftolozane/Tazobactam
• lmipenem/Cilastatin
• Meropenem
• Doripenem
• Ertapenem

Question 97

HNPEK

Answer 97

Like PEK
But without cefazolin and cefalexin

Question 98

CAPES

Answer 98

• Piperacillin/Tazobactam
• Cefotaxime
• Ceftriaxone
• Ceftazidime
• Aztreonam
• Cefepime
• Ceftaroline
• Ceftazidime/ Avibactam
• Ceftolozane/Tazobactam
• lmipenem/Cilastatin
• Meropenem
• Doripenem
• Ertapenem

Question 99

Pseudomonas

Answer 99

• Piperacillin/Tazobactam
• Ceftazidime
• Aztreonam
• Cefepime
• Ceftazidime/ Avibactam
• Ceftolozane/Tazobactam
• lmipenem/Cilastatin
• Meropenem
• Doripenem

Question 100

G +ve anaerobes (Mouth flora)

Answer 100

• Penicillin
• Amoxicillin
• Amox/ Clav
• Amp/ Sulbactam
• Pip/tazo
• Cefazolin
• Cefalexin
• Cefotetan
• Cefoxitine
• Cefotaxime
• Ceftriaxone
• Cefepime
• Ceftaroline
• Ceftazidime/ Avibactam
• Ceftolozane/Tazobactam
• Imipenem/Cilastatin
• Meropenem
• Doripenem
• Ertapenem

Question 101

B. Fragilis

Answer 101

• Amoxicillin/Clavulanate
• Ampicillin/Sulbactam
• Cefotetan
• Cefoxitin
• Ceftazidime/ Avibactam
• Ceftolozane/Tazobactam
• Imipenem/Cilastatin
• Meropenem
• Doripenem
• Ertapenem

Question 102

Atypical Organisms

Answer 102

No coverage in beta lactams

Question 103

AMINOGLYCOSIDES MOA

Answer 103

• Bind to ribosome
• Interferes with bacterial protein synthesis
• Defective bacterial cell membrane

Question 104

AMINOGLYCOSIDES coverage

Answer 104

• Gram -ve
• Pseudomonas
• Usually not given empirically as monotherapy
• Gentamicin and streptomycin: used empirically with Beta lactams or Vanco for synergy
  – when treating Gram-positive infections (enterococcal endocarditis)
• Streptomycin and amikacin are used as second-line treatments for Mycobacterial infections.

Question 105

What are the two dosing strategies for aminoglycosides?

Answer 105

1) Traditional dosing:
- Lower doses
- More frequently

2) Extended interval dosing:
- Higher doses (to attain higher peaks)
- Less frequently
– Less accumulation of drug
– Lower risk of nephrotoxicity
– Decreased cost.

—> While there is a better chance of achieving the target Cmax:MIC, this dosing strategy has not been shown to be clinically superior to traditional dosing.

Question 106

GOOD NEWS with aminoglycosides

Answer 106

• Kill Gram-negative pathogens fast
• Are synergistic with beta-lactams for some Gram-positive organisms
• Low resistance
• Low drug cost

–Concentration-dependent activity
–Have a post-antibiotic effect (the bacterial killing continues after the serum level drops below the MIC)

Question 107

BAD NEWS with aminoglycosides

Answer 107

They have notable toxicities that require monitoring:

• Renal damage
• Ototoxicity, which may be irreversible (hearing loss/tinnitus/ balance problems)

Question 108

How can you use aminoglycosides in a smart way?

Answer 108

Take advantage of the concentration-dependent kinetics ➔ give larger doses less frequently
➔ this gives the kidneys time to recover between doses

Question 109

List aminoglycoside drugs

Answer 109

• Gentamicin
• Tobramycin (inhalation for CF)
• Amikacin
• Streptomycin
• Plazomicin: For complicated UTI only

Question 110

Which weight should you use for dosing of aminoglycosides

Answer 110

• If underweight (< ideal body weight) use total body for dosing
• If normal weight (not obese or underweight): ideal body weight or total body weight can be used for dosing (follow the hospital protocol)
• If obese, use adjusted body weight for dosing

Question 111

Traditional IV Dosing of Gentamicin and tobramycin

Answer 111

1-2.5 mg/kg/dose;
- Lower doses are used for Gram-positive infections;
- Higher doses are used for Gram-negative infections

Question 112

Renal Dose Adjustments (Traditional Dosing) of aminoglycosides

Answer 112

CrCI > 60 ml/min: Q8H (To know)
CrCI 40-60 ml/min: Q12H
CrCI 20-40 ml/min: Q24H
CrCI < 20 ml/min: 1x dose, then dose per levels

Question 113

Extended Interval IV Dosing (Gentamicin/Tobramycin)

Answer 113

• 4-7 mg/kg/dose (commonly 7 mg/kg)
• Frequency (dosing interval) is determined by a nomogram but starts at Q24H if renal function is normal
• Avoid when clearance and/or volume of distribution are altered [pregnancy, ascites, burns, cystic
  fibrosis, CrCI < 30 ml/min (including end-stage renal disease on dialysis)]

Question 114

BBW with aminoglycosides

Answer 114

• Nephrotoxicity
• Ototoxicity (hearing loss, vertigo, ataxia)
• Neuromuscular blockade
• Respiratory paralysis
• Avoid with other neurotoxic/nephrotoxic drugs,
• Fetal harm if given in pregnancy

Question 115

Warnings with aminog

Answer 115

Use caution in patients with impaired renal function, in the elderly, and those taking other nephrotoxic drugs (amphotericin B, cisplatin, polymyxins, cyclosporine, loop diuretics, NSAIDs, radiocontrast dye, tacrolimus and vancomycin)

Question 116

SE with aminogly

Answer 116

Nephrotoxicity (acute tubular necrosis), hearing loss (early toxicity associated with high-pitched sounds), vestibular toxicity (resulting in balance deficits)

Question 117

Monitoring with aminogly

Answer 117

Drug levels, renal function, urine output, hearing tests

• Traditional dosing: draw a trough level right before (or 30 minutes before) the 4th dose; draw a peak level 30 min after the end of the 30-minute infusion for the 4th dose
• Extended interval dosing: draw a random level per the timing on the nomogram

Question 118

Notes with aminog

Answer 118

• Amikacin is the most active against Pseudomonas
• The clinical definition of obesity varies (but TBW > 120% IBW is commonly used for drug dosing); on the exam, obesity will be obvious, and may be stated in the question, indicating that adjusted body weight should be used for weight-based dosing
• Plazomicin is reserved for MDR Gram-negative UTls and should only be used when there are no alternative treatment options