After entry, botulism toxin gets transported to the cholinergic nerve endings via the blood. It does not affect the central nervous system. BT binds to the acetylcholine receptors on the neuromuscular junctions, resulting in blockage of the release of the neurotransmitter leading to flaccid paralysis.

The manifestations of botulism are due to a decrease in the availability of acetylcholine in the cranial nerve and parasympathetic nerve terminals. Common symptoms include:

• Diplopia, dysphasia, dysarthria
• Descending symmetric flaccid paralysis of voluntary muscles
• Loss of deep tendon reflexes
• Constipation
• There are no sensory or cognitive deficits
• Respiratory muscle paralysis may lead to respiratory failure and death.[9]

Types of Botulism

• Foodborne botulism

It results from the consumption of foods contaminated with preformed botulinum toxin. The most common source is homemade canned food. Most cases are sporadic; outbreaks are rare.

• Wound botulism

It results from contamination of wounds with C. botulinum spores. It presents like foodborne botulism except for the absence of gastrointestinal features.

• Infant botulism

It results from the ingestion of contaminated food (usually honey) with spores of C. botulinum in children of 1 year of age. Spores germinate, releasing the toxin. Manifestations include the inability to suck and swallow, weakened voice, ptosis, floppy neck, and extreme weakness and hence referred to as 'floppy baby syndrome.' It is a self-limiting condition, managed by supportive care and assisted feeding. However, rarely it can progress to generalized flaccidity, respiratory failure, and sudden death.

• Adult intestinal botulism 

Rarely, in patients with suppressed normal flora, the colonized clostridial spores may germinate producing toxin.

• Iatrogenic botulism 

It results from the injection of an overdose of toxin while used for therapeutic purposes.

The diagnosis of botulism includes isolation of the bacilli and demonstration of the toxin.

Isolation of the Bacilli

• Gram staining of smears made from suspected food or feces-reveals gram-positive, non-capsulated bacilli with subterminal, oval, bulging spores.
• It is motile by peritricate flagella.
• Isolation is possible when cultures are on blood agar or Robertson's cooked meat (RCM) broth. Bacterial colonies appear as large, irregular, semi-transparent, hemolytic with a fimbriated border on blood agar. In RCM broth, turbidity occurs with meat particles turning black and production of foul odor with C. botulinum A, B, F (proteolytic), and turn pink with C. botulinum C, D, E (saccharolytic). Growth on culture media may be confirmed by Gram staining and biochemical tests.
• The mere presence of bacilli in food or feces is of less significance. Toxin demonstration is more meaningful.
• Serotyping is through type-specific antisera.

Toxin Demonstration (Mouse Bioassay)

Toxins are detectable in the specimens (serum, stool, sterile water or saline enema, gastric aspirates, wound material) or samples of ingested foods.

• Specimens get injected into a mouse that develops paralysis in 48 hours, which can be inhibited by prior administration of specific antitoxin.

• The sensitivity of the mouse bioassay varies inversely with the time elapsed between the onset of symptoms and sample collection.[10]

• In sick patients, meticulous intensive care support is needed, such as mechanical ventilation, if respiratory paralysis develops.
• Botulinum antitoxin: It should be administered immediately on clinical suspicion without waiting for laboratory confirmation. Earlier the administration better is the cure rate because antitoxin can neutralize the unbound free toxin molecules. However, once toxin binds to nerve endings, antitoxin has no role.
• In wound botulism: suspected wounds and abscesses should be cleaned, debrided, and drained promptly. Antibiotics though C. botulinum is susceptible to penicillin; the role of antibiotics is not established.[11][12]

The conditions which can mimic Clostridium botulism are as follows: 

• Guillain-Barre syndrome (GBS)
• Myasthenia gravis
• Amyotrophic lateral sclerosis
• Stroke
• Organ phosphorus poisoning
• Lambert Eaton syndrome
• Tick paralysis
• Antimicrobial associated paralysis
• Acute intermittent porphyria (AIP)
• Shellfish poisoning

Diseases caused by clostridial bacteria have a good prognosis if the patient is diagnosed and treated in time.

• Nosocomial infections
• Urinary tract infection
• Thrombophlebitis
• Deep vein thrombosis
• Pressure sores
• Contractures

Proper canning is a strong recommendation; Advise on heating all canned food before consumption can prevent the adult form of botulism. Refraining from using honey for kids under two years of age can be considered to avoid infant botulism. 

As most cases of botulism follow the consumption of inadequately canned or preserved food, control is achievable by proper canning and preservation. When an outbreak occurs, a prophylactic dose of antitoxin should be given intramuscularly to all who consumed the food article.

Active immunization has demonstrated to be effective. If immunization is needed, as in laboratory workers exposed to the risks, two injections of aluminum sulfate adsorbed toxoids may be given at an interval of ten weeks, followed by a booster a year later. Antitoxin may be tried for treatment. Polyvalent antiserum to types A, B, and E may be administered as soon as arriving at a clinical diagnosis. Supportive therapy with the maintenance of respiration is of equal or great importance.

An investigational pentavalent botulinum toxoid is available for the people at elevated risk for BoNT exposure, such as laboratory workers and military personnel. No FDA-approved vaccine exists for the general public. The pentavalent toxoid is not under consideration for public use due to cost, the number of required vaccinations, and the recent decline in immunogenicity.