Venoms & Toxins

Question 1

Venomous animals

Answer 1

Actively inject toxins into victim

Venom is used for hunting and defense

Example: brown recluse

Question 2

Poisonous animals

Answer 2

Secrete poisons which are passive defense mechanisms

Example: poison dart frog

Question 3

Three classes of venom compounds

Answer 3

1. LMW substances
2. Peptides
3. Enzymes

Question 4

What are LMW substances?

Answer 4

Substances that often cause pain, inflammation, and hypotension

Examples: Prostaglandins, histamine, epinephrine

Question 5

What are toxic peptides?

Answer 5

Peptides that cause direct toxic effects and allergy

Examples: Melittin, bungarotoxin

Question 6

What are toxic enzymes?

Answer 6

Eznymes that cause toxicity and allergy

Examples: hyaluronidase, collagenase, protease

Question 7

Hymenoptera

Answer 7

Includes bees, wasps/hornets, and fire ants

Question 8

Crazy Ants

Answer 8

Native to Africa
Very aggressive
Numbers growing in Florida

Question 9

Mechanism of action of bee venom

Answer 9

Composed of

50% melittin: acts as detergent, is hemolytic, and causes pain and histamine release

12% phospholipase A2: destroys cell membranes

Question 10

Mechanism of action of wasp/hornet venom

Answer 10

Contain neurotoxins, alarm pheremones (alert the swarm to the intruder), and kinins (the primary pain-inducing substances)

Question 11

Mechanism of action of ant venom

Answer 11

Piperidine causes dermal necrosis
Formic acid causes burning sensation and pain
Both chemicals have cytotoxic, hemolytic, fungicidal, insecticidal, and bactericidal properties

Question 12

Clinical signs of bee, wasp/hornet, ant stings

Answer 12

Site of sting: swollen, red plaques, edema, regional allergic reaction

Anaphylaxis (most common cause of death)

Systemic toxicity caused by delayed hypersensitivity (shock, hemolysis, rhabdomyolysis, hepatic and renal injury)

Question 13

Treatment of bee, wasp/hornet, ant stings

Answer 13

Removal of stinger by scraping (not forceps!)

Cold compress

Antihistamines/corticosteroids

Monitor for anaphylaxis

Question 14

Genus of ticks that can cause toxicity

Answer 14

Dermacentor

Ixodes

Question 15

Mechanism of action of tick toxin

Answer 15

Holocyclotoxin causes impaired neuromuscular junction, causing weakness and paralysis

Also may act on Na+ channels

Question 16

Clinical signs of tick holocyclotoxin toxicosis

Answer 16

Appear 6-14 days after attachment of tick

Loss of appetite and voice, incoordination, flaccid paralysis, excessive salivating, vomiting, respiratory distress, death

Question 17

Diagnosis of tick holocyclotoxin toxicosis

Answer 17

No definitive diagnosis
History of tick infestation
Presence of ticks
Ascending paralysis and loss of voice

Question 18

Treatment of tick holocyclotoxin toxicosis

Answer 18

Supportive therapy
Atropine sulfate
Anti-emetics
Fluid replacement therapy
Oxygen

Prognosis is good if treated

Question 19

Species of toad that cause poisoning

Answer 19

All species of Bufo secrete toxins for defense

B. Marinus in Florida, B. Alvarius (California/Arizona)

Eggs and tadpoles are also toxic

Question 20

Cane Toad/Giant Toad (B. Marinus)

Answer 20

Found in Florida
Secrete potent compounds that can be fatal
Have few predators

Question 21

Compounds and mechanism of action of toad poisons

Answer 21

Biogenic amines: cause vasoconstriction, hypotension, hallucination, GI effects

Bufogenins (bufotalin): inhibit Na/K ATPase and produce toxic arrhythimias

Question 22

Clinical signs/diagnosis of toad poison toxicosis

Answer 22

Hypersalivation, foaming at mouth, head shaking, vomiting
Hyperemic gums (brick red)
Arrhythmias
Convulsions, ataxia, hallucination
Severe hyperkalemia
Death can occur in 15 minutes

Question 23

Treatment of toad poison toxicosis

Answer 23

Immediate oral decontamination (water lavage)
Activated charcoal if no seizures
Diazepam/barbiturates for seizures
Propanolol, lidocaine, esmolol for arrhythmias
Fluid therapy
Digoxin for neuro signs/hyperkalemia

Question 24

What are Black Widow spiders (Lactrodectus mactans)?

Answer 24

Shiny black spider with red hourglass on bottom
Only females are toxic
Messy web

Question 25

Venom of black widow spider

Answer 25

Contains alpha-latrotoxin
Created pores in membranes allowing Ca++ entry and release of massive amounts of neurotransmitter
Causes sustained muscle spasms

Question 26

Clinical signs of black widow spider envenomation

Answer 26

muscle cramping and spasms
Rapid weightloss
Abdominal rigidity 
Restlessness, writhing
Vocalization
Hypertension
Tachycardia, respiratory collapse

CATS MOST SENSITIVE BECAUSE THEY EAT SPIDERS

Question 27

Treatment of black widow spider envenomation

Answer 27

Anti-venom only proven treatment
Control muscle spasm and pain
Calcium gluconate for muscle camps
Supportive care, especially respiratory

Question 28

Characteristics of Brown Recluse spider (Loxosceles reclusa)

Answer 28

Nocturnal and non-aggressive
Animals bitten when they lay down on spider
Dogs are most susceptible
Venom contains several necrotizing enzymes

Question 29

Brown Recluse venom

Answer 29

Sphingomyelinase D binds to cell membranes and cleaves head off lipids
Causes tissue necrosis
Victim’s immune response determines severity of lesion

Question 30

Clinical signs of brown recluse envenomation

Answer 30

Initial bite causes little to no pain
3-8 hours after envenomation, site becomes red, swollen, tender, and forms a “bulls eye” and non-healing ulcer
Can cause hemolytic anemia, fever, weakness, leukocytosis

Question 31

Diagnosis of brown recluse envenomation

Answer 31

Difficult if bite is not witnessed

Question 32

Treatment of brown recluse envenomation

Answer 32

Dapsone to treat dermal lesion
Fluids, NSAIDs, glucocorticoids
Antibiotics
Analgesics

For necrotic lesions: clean with burrow’s solution (Aluminum acetate) or hydrogen peroxide, debridement of necrotic tissue, bandage

Question 33

Characteristics of snake envenomation

Answer 33

Venomous snakes - Elapidae or Crotalidae
Dogs and horses most common victims
Size of victim and amount of venom determines severity
Death due to respiratory paralysis

Question 34

Eastern Coral Snake (Micrurus fulvius fulvius)

Answer 34

Red, yellow, black alternating bands
Small fangs, small heads, round pupils
Shy, non-aggressive, and nocturnal

Question 35

Mechanism of action of coral snake envenomation

Answer 35

Venom is composed of polypeptides and enzymes
Neurotoxicity due to bungarotoxin
Acts by preventing binding of ACh causing paralysis
Local tissue necrosis, myoglobinuria in cats, and hemolysis in dogs

Question 36

Clinical signs of coral snake envenomation

Answer 36

Onset of clinical signs may be delayed up to 12h
Salivation, dyspnea, weakness, hyporeflexia, CNS depression, paralysis
No definitive diagnostic test

Question 37

Treatment of coral snake envenomation

Answer 37

If neurologic signs develop, administer anti-venom immediately
Respiratory function should be closely monitored
Broad-spectrum antibiotics and symptomatic wound care
Prognosis is good when prompt care received
Monitor for a minimum of 24 hours! Recovery can be up to 10 days

Question 38

Characteristics of pit vipers (Crotalids)

Answer 38

Copperhead, cottonmouth, rattlesnakes
Characterized by heat sensing pit and hinged, retractable fangs
Head is wider than body (triangular-shaped)
Elliptical/vertical pupil

Copperheads are responsible for majority of animal snake bites but rattlesnakes cause most deaths

Question 39

Examples of pit vipers in Florida

Answer 39

Cottonmouth
Timber Rattlesnake
Eastern Diamondback
Copperhead

Question 40

Clinical signs of pit viper envenomation

Answer 40

Distinct fang marks
Immediate swelling and bruising
Hypotension, shock, tachycardia, tachypnea
Anticoagulation
Tissue necrosis

Cats often hide
Dogs seek human attention

Question 41

Treatment of pit viper envenomation

Answer 41

Every case is different!
Only proven therapy is anti-venom
Symptomatic and supportive care
Copperhead bites can be managed with antihistamines
Rattlesnake and moccasin bites often managed with fluids and corticosteroids for shock and glucocorticoids for inflammation

DON’T cut, ice, or tourniquet (these localize effects of toxin to one area so is harder for body to fight)

Question 42

Garbage/carrion toxicity

Answer 42

Usually from protein-rich foods during warm months
Enterotoxins and endotoxins
Can be due to bacteria or preformed toxins

Question 43

Mechanism of action of enterotoxins

Answer 43

Bacteria bind intestinal epithelium, increasing permeability, and causing fluid loss (diarrhea) and decreased absorption of nutrients

Question 44

Examples of enterotoxins

Answer 44

Salmonella, E. coli, bacillus, Strep, and C. Perfringens

Question 45

What are Endotoxins?

Answer 45

Lipopolysaccharide from gram negative cell walls

Question 46

Mechanism of action of endotoxins

Answer 46

Activates inflammatory processes and causes release of prostaglandins and histamine

Question 47

Clinical sign of endotoxin toxicity

Answer 47

Shock
Pancreatitis
Activation of clotting cascade
Heart effects
Lethargy
Fever
Diarrhea, extremely bad smelling feces
Abdominal pain

Question 48

Treatment of endotoxin toxicosis

Answer 48

Emesis (if not already occurred)
Support cardiovascular function
Fluids
Antibiotics

Question 49

What is botulism?

Answer 49

Caused by clostridium botulinum

Extremel potent toxin

Question 50

Mechanism of action of botulism toxicosis

Answer 50

Prevents release of ACh, causes paralysis

Question 51

How to diagnose botulism?

Answer 51

Hard to diagnose

Often only circumstantial evidence (access to carrion, garbage, compost piles)

Question 52

Clinical signs of botulism

Answer 52

Decreased tongue and tail tone
Dropping food from mouth, salivation
Weakness, weak vocalization, progressive paresis
Bradycardia
Constipation, urinary retention

Question 53

Differential diagnoses for botulism

Answer 53

Anticholinesterase
Ionophores
Lead
Nitrate poisoning

Question 54

Treatment of botulism

Answer 54

Supportive therapy and IV fluids
Oxygen
Warm water enemas and bladder expression
Antibiotics
Antitoxin (not always effective- does not neutralize toxin already in neurons)

Poor prognosis