Clostridium botulinum
From IDWiki
Clostridium botulinum
Background
History
- Named for sausages (botulus) due to a historical association with improperly-cooked sausages
Microbiology
- Large Gram-positive anaerobic bacillus with a subterminal spore
- Lipase positive and lecithin negative on egg yolk agar
- Diverse species whose defining trait is the production of botulinum toxin
- Subdivided into four groups based on biochemical tests
- Group I: proteolytic in culture, and produces toxins A, B, and F
- Group II: non-proteolytic in culture, and produces toxins B, E, and G
- Group III: produces toxins C and D
- Group IV: produces toxin G
- These strains produce eight toxin types, A through G (and possibly H), that are identified by serology; some strains produce two different toxins
- A, B, E, and F (and possibly H) cause disease in humans
- Toxins A and B are used therapeutically (e.g. Botox)
- Toxin G is the only plasmid-encoded toxin
Pathophysiology
- Disease is caused by ingestion or inhalation of preformed toxin, or absorption of toxin from localized infections in the GI tract or a wound
- Absorbed primarily in duodenum and jejunum
- Botulinum toxins are zinc-dependent metalloproteinases, and inhibit the release of acetylcholine from the presynaptic neuron
- Affects exclusively cholinergic synapses, including those of the neuromuscular junction and the autonomic nervous system
- Different toxin types target different specific proteins within the neuro
Life Cycle
- Circulates primarily in birds and non-human mammals
Epidemiology
- Spores are found worldwide in soil and water
- Disease commonly occurs in outbreaks related to contaminated food
- A is most common in North America and is commonly associate
- E is associated with marine animals and fish, and is common in outbreaks amongst Inuit people
- More common in certain areas due to local food practices
Clinical Manifestations
- Typically involves symmetric descending paralysis, starting with cranial nerves and often involving respiratory muscles
- Afebrile with normal or slow heart rate despite hypotension, and sparing the sensory nerves
- This presentation contrasts with polio, which can be asymmetric and often has fever
Foodborne Botulism
- Symptoms start 12 to 36 hours after ingestion
- Nausea, diarrhea, and dry mouth
- Of note, diarrhea is not caused by the toxin but by other ingested contaminants
- Descending flaccid paralysis, with:
- Acute onset bilateral cranial neuropathies, causing diplopia, dysphagia, and dysarthria
- Almost always symmetric, but can rarely be asymmetric
- Autonomic neuropathies, causing dry mouth, fixed or dilated pupils, blurred vision, and hypotension
- Upper and lower extremity weakness
- May appear calm despite significant respiratory distress, due to the paralysis
- GI symptoms include constipation, nausea, and vomiting; occasionally abdominal cramps and diarrhea
- Usually fatigue, and occasionally sore throat and dizziness
- No cognitive or sensory effects (rarely paresthesias)
Wound Botulism
- Incubation period of 4 to 14 days
- More commonly caused by toxins A or B
- Classically associated with injection of "black-tar" heroin, especially those who inject by skin-popping
- May have fever secondary to an infected wound, although the wound can rarely appear to be healing well
- Can produce abscesses
Infant Botulism
- Classically after ingesting unpasteurized honey
- Most commonly caused by toxins A, B, and F
- Presents with feeding difficulties, hypotonia, drooling, and weak cry
- Descending paralysis, including upper airway obstruction that may require intubation
- Distinguishing features are lack of fever, normal CSF
- Typically worsens over 1 to 2 weeks, then stabilizes for 2 to 3 weeks, then recovers
- Relapses are possible
Adult Intestinal Toxemia
- Rare form of botulism associated with colonisation of the GI tract
- Most commonly caused by toxin A, but occasionally also B and F
- Onset is more gradual and disease less severe than foodborne botulism
- Risk factors are gastrointestinal surgery or illness, such as inflammatory bowel disease
Inhalation Botulism
- Incubation period of 12 hours to 3 days
- Rare, associated with insufflation of contaminated cocaine, but also a theoretical bioterrorism agent
- Typical symptoms of botulism
Iatrogenic Botulism
- May occur during use of therapeutic botulinum toxin (e.g. Botox)
Prognosis
- Mortality with appropriate treatment is 5 to 8% in adults and 1% in infants
- Takes weeks to months to recover (admissions lasting 1 to 3 months) and may have fatigue and weakness for more than one year
Differential Diagnosis
Adults
- Guillain-Barré syndrome (acute inflammatory demyelinating polyneuropathy): asymmetric, ascending, and involves sensory nerves; or ataxia, in the Miller-Fisher variant that involves cranial nerves
- Lambert-Eaton myasthenic syndrome
- Myasthenia gravis: lacks autonomic features
- Stroke, especially brainstem stroke
- Bacterial or chemical food poisoning
- Tick paralysis: Dermacentor tick still attached
- Chemical intoxication: carbon monoxide poisoning, organophosphate toxicity
- Mushroom poisoning
- Poliomyelitis: typically febrile and asymmetric
- Psychiatric illness
Infants
- Sepsis
- Meningitis
- Electrolyte imbalance
- Reye syndrome
- Congenital myopathy
- Werdnig-Hoffman disease
- Leigh disease
Diagnosis
- Samples should include serum, gastric secretions, stool, or food
- Gold standard for diagnosis is the mouse bioassay
- A mouse is injected with a sample and is monitored for paralysis
- Toxin type is determined by administering type-specific antitoxin and monitoring for improvement
- Strict anaerobic cultures of serum, stool, or food, though low sensitivity
- EMG may show small decrement in motor response or brief small abundant motor unit action potentials (BSAP), and may be useful to distinguish botulism from Lambert-Eaton myasthenic syndrome
Management
- Call the Botulism Reference Service for Canada (or equivalent): office (613) 957-0902; laboratory (613) 957-0885; after-hours (613) 296-1139
- Supportive care
- Low threshold for intubation and ventilation
- If contaminated food still in gastrointestinal tract, may use purgatives to prevent further absorption (unless ileus)
- Appropriate debridement and wound care, for wound botulism
- Antitoxin should be given within 2 to 3 days of symptom onset
- For infants up to 1 year old, BabyBIG (BIG-IV) 50 mg/kg
- Human-derived
- Only manufactured in California, so difficult to access urgently
- For children over 1 year and adults, heptavalent botulinum antitoxin (HBAT)
- Horse-derived antitoxin to toxins A through G (7,500 U anti-A; 5,500 U anti-B; 5,000 U anti-C; 1,000 U anti-D; 8,500 U anti-E; 5,000 U anti-F; and 1,000 U anti-G)
- Risk of sensitization or anaphylaxis to horse proteins
- For infants up to 1 year old, BabyBIG (BIG-IV) 50 mg/kg
- Antibiotics
- Unclear benefit, but often penicillin G or metronidazole are used for wound botulism
- Aminoglycosides and tetracyclines can worsen the paralysis of infant botulism, possibly by lysis of Clostridium botulinum in the gut
Prevention
- Food safety practices
- Safe canning and fermentation practices
- Toxin is heat labile, though, so cooking food will deactivate the toxin
- Avoiding honey in infants less than 1 year old
- Possibly also avoiding raw sugar (but not refined sugar), molasses, herbal (chamomile) tea26 and other herbal preparations