GIS28 Antibacterial Treatment Of Enteric Infections

Question 1

Enteric infections

Answer 1

• acute diarrhoea caused by microbial enteropathogens
  —> often self-limiting
  —> fluid / electrolyte replacement
  —> antimicrobial therapy: reduce severity and duration

Time of onset:
- acute: <2 weeks
- persistent: 2-4 weeks
- chronic: >4 weeks

Types of stool:
- watery diarrhoea
- dysentery (invasive diarrhoea)

Question 2

Severity of diarrhoea

Answer 2

Mild:
- <=3 unformed stool/day
- minimal associated symptoms

Moderate:
- >=4 unformed stool/day
- systemic symptoms

Severe:
- >=6 unformed stool/day
- fever
- systemic symptoms

Question 3

Mechanisms of diarrhoea

Answer 3

1. ***Secretory: H2O secretion > H2O absorption due to toxins
2. ***Osmotic: excessive solute in the gut lumen —> H2O can’t be absorbed e.g. lactose intolerance
3. ***Infectious / inflammatory: epithelial destruction, loss of absorptive capacity
   —> bacterial: do not use anti-motility drugs

Question 4

Bacteria that cause diarrhoea

Answer 4

1. Vibrio cholera
2. Shigella
3. Escherichia coli
4. Salmonella
5. Campylobacter jejuni
6. Staphylococcus aureus
7. Bacillus cereus (food poisoning)
8. Clostridium difficile (food poisoning)

Question 5

Subtypes of E. coli

Answer 5

1. Enterotoxigenic (ETEC)
   —> 2 toxins —> watery diarrhoea
   - traveller’s diarrhoea
2. Enteropathogenic (EPEC)
   —> watery diarrhoea
   - infantile diarrhoea (in nurseries)
3. Enterohaemorrhagic / verocytotoxigenic / Shiga toxin-producing (EHEC / VTEC / STEC)
   —> person-to-person transmission in day care setting
   - haemorrhagic colitis (bloody diarrhoea)
   - haemolytic uraemic syndrome
   - thrombotic thrombocytopenic purpura
4. Enteroinvasive (EIEC)
   —> developing world
   - dysentery
5. Enteroaggregative (EAggEC)
   - diarrhoea in adults and children
6. Diffusely adherent (DAEC)
   - diarrhoea in children

Question 6

Medically important diarrhoea

Answer 6

• ***community outbreaks
• ***inflammatory, blood diarrhoea
• severe volume depletion
• ***high fever
• severe abdominal pain
• duration > 4-5 days
• impaired host (e.g. HIV)

Question 7

Cholera

Answer 7

Life-threatening watery diarrhoea
- due to cholera toxin by vibrio cholerae
- in faecally contaminated food / water

Treatment:
1. Oral Rehydration Salts (ORS fluid replacement)

2. Short course ***broad spectrum antibiotics for severe cases
   - Fluoroquinolones (ciprofloxacin)
   - Co-trimoxazole (trimethoprim + sulfamethoxazole)
   - Tetracycline (doxycycline)
   - Macrolide (azithromycin)
3. Vaccination

Question 8

Salmonella infection / Salmonellosis

Answer 8

Contaminated food / drink

Symptoms:
- within 12-72 hours: N+V, fever, diarrhoea, abdominal cramps
- 4-7 days: mild to severe symptoms, most recover without treatment
- severe case: break through intestinal wall to bloodstream

Typhoid fever:
***Broad-spectrum antibiotics (depend on resistance pattern)
- Fluoroquinolones (Ciprofloxacin)
- Co-trimoxazole
- 3rd gen Cephalosporin (Ceftriaxone)
- Penicillins (amoxicillin, ampicillin)

Non-typhoid salmonella gastroenteritis
- antibiotics NOT required unless severe

Question 9

Shigellosis

Answer 9

Self-limiting

Treatment:
1. Oral rehydration / IV fluid replacement
2. Antibiotic required ONLY in dysentery
- Fluoroquinolones
- 3rd gen Cephalosporin
- ampicillin / co-trimoxazole (few bacteria still sensitive because of resistance)

Question 10

Campylobacter gastroenteritis

Answer 10

• diarrhoea / dysentery mild and self-limiting
• abdominal pain and fever

Treatment:
- Macrolide (used in severe)
- Fluoroquinolones (increasing frequencies of resistance) / other broad-spectrum antibiotics

Question 11

Traveller’s diarrhoea

Answer 11

• change in climate, social conditions, sanitation standards and facilities
• diarrhoea likely within 2-10 days
• usually due to ETEC

Treatment:
1. Oral rehydration
2. Broad spectrum antibiotics for 3-5 days (↓ severity and duration)
—> Co-trimoxazole (1st choice)
—> Fluoroquinolone
—> 3rd gen Cephalosporin

Question 12

Antibiotic-associated diarrhoea

Answer 12

• Majority due to overgrowth of C. difficile in the gut
• Clostridium difficile toxin produces
  —> water diarrhoea
  —> pseudomembranous colitis

Treatment:
1. Metronidazole
2. Oral vancomycin

Question 13

Drugs used in the treatment of enteric infections

Answer 13

1. β-lactam (penicillins, cephalosporins)
2. Fluoroquinolones (ciprofloxacin)
3. Co-trimoxazole
4. Macrolides (erythromycin, azithromycin)
5. Tetracycline (doxycycline)
6. Metronidazole
7. Vancomycin

Question 14

Vancomycin

Answer 14

• ***Glycopeptide
• almost completely excreted in urine
• renal failure: dosage adjustment

Mechanism of action:
- bacteriCIDAL
- ***block bacterial cell wall synthesis —> susceptible to osmotic pressure (cell lysis)
- effective vs many drug-resistant bacteria
- lower incidence of bacterial resistance (VRE, VISA superbugs are emerging)

Administration:
- **Slow IV for systemic therapy —> high incidence of pain and thrombophlebitis
- Rapid IV infusion —> **“red man syndrome”
- Reserved for
—> serious infection in penicillin-allergic patients
—> resistant organisms (MRSA, MRSE infection)

• Oral route: useful for treatment of Enterocolitis (Clostridium difficile colitis)

Adverse effects:
- **Nephrotoxicity
- **Ototoxicity

Question 15

Co-trimoxazole

Answer 15

• Trimethoprim + Sulfamethoxazole (1:5)
• Synergistic antibacterial effect against Gram +ve and Gram -ve bacteria
  —> except P. aeruginosa, Enterococcus, Gram -ve anaerobes

Adverse effects:
- GI discomfort
- Hypersensitivity
- Low incidence of serious adverse effects

Question 16

MOA of Co-trimoxazole

Answer 16

BacteriCIDAL

Sulfamethoxazole (sulfonamides):
- inhibit **Dihydropteroate synthetase
- Para-aminobenzoic acid —X—> Dihydrofolic acid
- interferes with bacterial **folic acid synthesis and growth

Trimethoprim:
- inhibit **Dihydrofolate reductase
- blocks production of **Tetrahydrofolic acid

• Caution in patients with severe ***G6PD

Question 17

Mechanisms of resistance to co-trimoxazole

Answer 17

1. Alteration of different substrate enzymes / their overproduction
2. Loss of bacterial drug-binding capacity
3. Decreased cell permeability

Question 18

Metronidazole

Answer 18

• Synthetic Nitroimidazole derivative
• important agent in anaerobic infections (intra-abdominal infections)
• BacteriCIDAL vs Bacteroides fragilis

Spectrum:
- **Anaerobic bacteria (Bacteroides, Clotridium)
- **Protozoa (Entamoeba, Giardia)

Resistance:
- Rare
- Decreased activation (↓ redox reaction) of drug

SE:
- N/V
- headache
- ***Metallic taste
- alcohol intolerance, seizures, peripheral neuropathy (rare)

Question 19

MOA of metronidazole

Answer 19

• Enter bacteria via diffusion
• Nitro group of metronidazole is chemically reduced by redox enzyme pyruvate-ferredoxin oxidoreductase (PFOR)
  —> forms highly reactive ***Nitro radical anion
  —> disrupts the DNA helical structure
  —> inhibit DNA synthesis
  —> cell death

Question 20

Pharmacokinetics of metronidazole

Answer 20

• very well absorbed
• excellent penetration
• metabolised in Liver
• Urine excreted

Question 21

Viral gastroenteritis

Answer 21

Acute infection, self-limiting
- Rotavirus
- Norovirus
- Adenovirus

Treatment:
- Fluid and electrolyte replacement with ORS
- NO antiviral drugs available

Question 22

Summary

Answer 22

Mild:
- fluids only (ORS)
- lactose free diet
- avoid caffeine

Moderate:
- anti-motility agent (loperamide)

Severe:
- Fluoroquinolones
- Co-trimoxazole
- Macrolides

Question 23

β-lactam (penicillins, cephalosporins) (transpeptidase / PBP)
Macrolides (50s —> block A site to P site) (bacteriostatic)
Tetracycline (30S —> block A site) (bacteriostatic)
Fluoroquinolones (Topoisomerase IV, II —> DNA cleavage)

Answer 23

More information see CPRS L71

β-lactam:
Mimics structure of D-Ala-D-Ala link
—> covalently bind to and inhibit ***transpeptidase/penicillin binding protein (PBP)
—> inhibit pentapeptide cross linking between NAM subunits
—> bacterial cell wall weakens
—> autolysin activated to destroy existing cell wall / osmotic lysis

Macrolide:
Irreversible binding to 50S subunit
—> Inhibit ***translocation of polypeptide chain from A to P site by peptidyltransferase
—> block movement of peptidyl tRNA from A to P site
—> incoming tRNA cannot bind to A site
—> stop protein synthesis

Tetracycline:
Bind to 30S
—> prevent **access of amino acid tRNA to A site on mRNA-ribosome complex
—> block addition of amino acid to existing peptide chain
—> stop protein synthesis
- **Teeth discolouration
- **Reduced bone growth (children <8)
- **Photosensitivity

Fluoroquinolones:
1. Inhibit DNA gyrase (topoisomerase II)
—> quinolone-DNA-gyrase complex
—> induced cleavage of DNA
2. Inhibit DNA topoisomerase IV
- GI symptoms
- CNS symptoms (dizziness, confusion, insomnia)
- **Photosensitivity
- **Ruptured tendons / Arthropathy (CI in children, pregnant and nursing women)