ANIMAL & INSECT BITES James Taclin C. Banez, MD, FPSGS, FPCS RABIES   In any mammalian animal Rhabdovirus: 1.

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Transcript ANIMAL & INSECT BITES James Taclin C. Banez, MD, FPSGS, FPCS RABIES   In any mammalian animal Rhabdovirus: 1. 

ANIMAL & INSECT
BITES
James Taclin C. Banez, MD, FPSGS, FPCS
RABIES


In any mammalian animal
Rhabdovirus:
1. Rabies – meningoencephalitis
- worldwide
2. Ebola – hemorrhagic fever
3. Marburg – hemorrhagic fever
Africa
RABIES


Developed countries ---> raccoons,
skunks, bats, etc
Developing and under developed
– Dogs (90%-Phil.)


Cats, cattle, horse, sheep, bats and
exotic animals (5-10%)
Small rodents, birds and reptiles does
not serve as reservoir of infection
Epidemiology (Rabies)
 Incidence
rate:
– 5–7/million
– Average cases: 326 annually (Phil.)
– Philippine is 4th worldwide
– San Lazaro Hospital:
 Pet
dogs – 88% of cases
 Stray dogs – 10% of cases
 Cats – 2% of cases
Prevention
 Avoidance
of said animals
 Vaccination of pets (dogs, cats)
 Exotic animals:
– Quarantine for 90 days then vaccinate
after another 30 days
– Pet bitten by rabid animals:
 No
previous vaccine ---> isolate for 6
months, vaccinate 1 month---->release
 w/ vaccine ----> give vaccine again and
isolated for 90 days
Transmission
1.
2.

Bites of rabid animals
Licking of the mucosa or open
wound
Period of communicability:
– Dogs & cats = 3-5 days before the
onset of the symptoms until the
entire course of the illness.
Transmission

Incubation periods (Human):
– 1 days to 5 yrs. (average 8wks)
– Variations:
1.
2.
3.
4.
Severity of the bite
Site of bite in relation to nerve supply
and distance from CNS
Size of innoculum, protection offered
by clothing and other factors
Age and immune status of the host
Transmission

Virus stays in:
1. CNS
2. Liver
3. Salivary gland


Travels thru the nerve
Incubation periods:
– 1 days to 5 yrs. (average 8wks)
Diagnosis

Circumstances of bite:
–
–
–

Provokes/unprovoked (domestic)
Vaccination of dogs ----> 90% effective
Wild animal ----> considered rabid
Extent & location of bite:
1. Severe:


multiple or deep puncture wound
Head, face, neck hands or fingers
2. Mild:


Superficial laceration, scratches
Bites on other sites mentioned
Diagnosis

Laboratory diagnosis:
1. Pre-mortem (human):



Fluorescent microscopy of skin biopsies
from nape of the neck.
Isolation of virus from saliva and CSF
Detection of antibody in serum and CSF in
unvaccinated person
2. Postmortem (human):

Fluorescent microscopy of brain and
salivary gland
3. Animal brain:


Histology = negri bodies
Demonstration of virus in brain tissue
Natural History of Clinical Rabies
in Man
Infected pts. usually go through 4 stages:

Exposure:
I.
Incubation Period 20-90 days:
–
–
>95% present s/sx w/in 6 months of exposure
>98% w/in 1 yr.
First Symptoms (Prodrome) 2-10 days
II.
–
–
Virus reaches the spinal cord
Nonspecific s/sx:
−
−
Fever, Anorexia, N/V, Headache, Malaise, lethargy
1st rabies specific symptom:
−
Pain , itching or paresthesias at site of bite
Natural History of Clinical Rabies
in Man
III.
–
–
First Neurological Signs/Acute
Neurological Phase: 2-7 days
Virus reaches the brain, multiplies and
disseminates rapidly to the rest of the body
organs notably the salivary glands
Pt may die at this stage
Natural History of Clinical Rabies
in Man
III.
First Neurological Signs/Acute
Neurological Phase: 2-7 days
– May present in 2 ways:
a. Encephalitic or Furious rabies (80%):

Hyperactive episodes:
–
–


Combative, presents bizarre behavior, may be very
agitated or apprehensive
Alternating w/ lucid moments where pt appears well
Hydrophobia – elicited by giving pt glass of
water; positive rxn. – agitation, cringing,
contraction of the muscles; caused by painful
contraction of laryngeal muscles upon drinking
Aerophobia – elicited by fanning the pt
Natural History of Clinical Rabies
in Man
III.
First Neurological Signs/Acute
Neurological Phase: 2-7 days
– May present in 2 ways:
b. Paralytic or “dumb” rabies (20%)




Starts as paralysis of the bitten area w/c
spreads to involve all limbs and eventually
ends in respiratory paralysis
Most often missed due to absent hydrophobia
and aerophobia
High index of suspicion who came in w/
paralysis or encephalitis of undetermined
etiology.
Hx of prior exposure (bite or non-bite)
Natural History of Clinical Rabies
in Man
Onset of Coma 0-14d
IV.
−
−
−
−
−
Pituitary dysfunction
Hypoventilation, apnea
Hypotension
Cardiac arrhythmia, cardiac arrest
Coma
Death:
V.
−
Secondary infection, nutritional deficiency and
respiratory problem
Management

Biting animals:
– Domestic = observe for 10 days
– Wild = vaccine shd. be given

Patients management:
1. Immediate local care:



Thorough irrigation w/ copious water/soap
Debridement / antibiotic / tetanus toxoid
Immediate suturing of wound (not advisable)
Management

Patients management:
1. Immediate local care:
a. Head & neck bites:
 Healing by secondary intention produces
an unacceptable scar.
 Primary closure has best outcome w/ lest
risk of infection
 Severe human bite and avulsion injuries of
the face requires flaps to close the wound
Management

Patients management:
1. Immediate local care:
b. Hand Injuries:
 1/3 of dog bites in the hand becomes
infected even w/ adequate therapy
 Healing by secondary intention is
recommended for most hand laceration.
 All tendons and nerve injuries should be
managed by delayed repair
 After thorough exploration, irrigation and
debridement, the hand shd. Be
immobilized, wrapped in a bulky dressing
Management

Patients management:
1. Immediate local care:
c. Other parts of the body:
Management

Patients management:
2. Prophylaxis:
– Post-exposure prophylaxis:


Incubation period 10 days to 1 year (20-90d)
Incubation of <30 days (head & neck, upper
extremities)
Management

Prophylaxis:
Immunization:
1. Passive:

Human Rabies Immune Globulin (HRIG)
– 20 I.U./KgBW

Equine Rabies Immune Globulin
– 40 I.U./KgBW
– A portion is infiltrated into the wound
– Given with in 8 days
Management

Prophylaxis:
Immunization:
2. Active:

Human Diploid Cell Vaccine (HDCV)
– 5 dose IM (1ml) ----> 0, 3rd, 7th,14th and 28th days
WHO - 90th day
– Booster:
 HDCV – 2 dose (0 and 3rd day)
 Antibodies levels checked every 6 months
Management
WHO GUIDE FOR POST-EXPOSURE TREATMENT:
Assess Nature of Contact or Injury and the Biting Animals
TYPE OF EXPOSURE
TREATMENT
HEALTHY
SICK/RABID
No
treatment
No
treatment
Vaccine +
observe
Vaccine
(full course)
Vaccine +
RIG +
observe
Vaccine + RIG
+ (Full
course)
Category I:
Touching or feeding, licking of healthy
skin w/ no open wound, no
documented contact of saliva w/
mucous membrane, reliable history
Category II:
Nibbling of uncovered skin, superficial
scratch that doesn’t break skin, licking
over broken skin or healing wounds.
Category I w/ unrealiable history
Category III:
Single or multiple transdermal bite or
scratch which penetrates skin at any
location; licking of mucous membrane
Management

Side effects of Vaccine (HBCV):
– Sickness, pain and swelling of injection
site
– Fever, N/V, diarrhea, lymphadenopathy
– Headache and dizziness

Contraindications:
1. Immuno-suppressive agents (measure
antibody titer)
2. Allergies (antihistamine and epinephrine)
3. Pregnancy (not accepted nor
documented)
Management
 Treatment
for symptomatic patients:
 Supportive:
– Sedation
– Respiratory support
– Management heart arrhythmia and
seizures
– Nursing care
– INTERFERON (not effective)
SNAKE BITES
Characteristic
Poisonous
Nonpoisonous
a. Shape of head
triangular
round
(+)
(-)
elliptical
Round
d. Bite marks
Fang marks
2 rows of teeth
e. Caudal plates
Single row
Double row
b. Pit
c. Pupils
f. Color body
Red ring next to
yellow (coral
Alternating color
snakes)
Venom Snakes

Toxicology:
1. Peptides:

Damages the endothelium:
– Increase vascular permeability
 Edema and hypovolemic
2. Enzymes:
a.
Proteases & L-amino acid oxidase:
– Cause tissue necrosis
b.
Hyaluronidase:
– Facilitate spread of venom through tissue
c.
Phospholipase A2:
– Damages erythrocytes and muscle cells.
Venom Snakes
4. Neurotoxin:

Blocks neuromuscular junction
5. Others:


Endonuclease, alkaline and acid
phosphatase, cholinesterase
Other deleterious effect:
– Affects cardiovascular, pulmonary,
renal and neurologic systems
– Affects coagulation, fibrinolysis,
platelet function and vascular integrity
causing hemorrhagic or thrombotic
sequelae
Clinical Manifestations
Local:
– 20% of pit vipers do not cause
envenomation
– Venom causes burning pain w/in
minutes, followed by edema and
erythema ----> edema progresses over
the next few hrs w/ development of
ecchymoses and hemorrhagic bullae
Clinical Manifestations
Systemic:
– Pt usually complain of weakness, N/V,
perioral paresthesias, metallic taste
and fasiculations.
– Continuing capillary leak leads to
hypotension ---> shock, pulmonary
edema
– Coagulopathy can develop w/in an
hour and manifest:


Bleeding (gingiva, bite site, venipuncture
site and recent wounds
Leads to DIC (disseminated intravascular
coagulopathy)
Clinical Manifestations
Systemic:
– Acute renal failure due to:
1.
2.
3.
Direct nephrotoxin
Circulatory collapse
Consumption coagulopathy
– Neurotoxic venom (black
mamba/coral snake/sea snake):



Local injury is minimal or absent
Cranial nerve dysfunction and loss of deep
tendon reflexes
Progress to respiratory depression and
paralysis after several hours.
Laboratory Examination
– CBC
– DIC panel
– Serum electrolyte
– BUN, Creatinine
– Urinalysis
– ECG
Management
Field Therapy:
– Calm the pt. / cleansed / immobilized
below the level of the heart.
– Tourniquet, to occlude the vein;
removed when:
1.
2.
3.
as soon as IVF is started
Antivenom is ready for administration
Patient is not in shock
Management
Field Therapy:
– Incision & Suction:



Effective if done w/in 5 mins and continued
for at least 30 minutes.
If done > 5mins ----> loss 50% 0f it’s value
If delayed > 30mins ----> loss 100% value
– Excision of the bite wound:



In severe bites
Pt allergic to horse serum
Those pt. seen w/in 1 hr. following the bit
– Cryotherapy – not recommended
Management
Hospital Management:
– History:



Hx. Of incident
Type of snake
Field management and prior antivenin tx.
– PE:


Vital signs
Size and wound appearance (degree of
envenomation / neurological examination for
coral snake)
Management
Hospital Management:
Wound care:
–
–
–
–
Cleansed thoroughly and extremity splinted
Debridement if necessary
Tetanus toxoid and tetanus immune globulin
Broad spectrum antibiotic (3-5days)
Fasciotomy:
– Done only if compartment pressure are over
30mmhg.
– Routine fasciotomies to prevent compartment
syndrome have not proved to be beneficial.
Management
Hospital Management:
Degree of Envenomation:
Grade 0: No envenomation
–
Minimal pain in wound, <1 inch of edema &
erythema, no systemic symptoms
Grade I:
–
–
–
Minimal
Moderate to severe pain
1-5inches edema & erythema at 12hrs.
No systemic symptoms
Management
Hospital Management:
Degree of Envenomation:
Grade II: Moderate
–
–
–
Severe pain
6-12inches of edema & erythema at 12hrs.
N/V, shock or neurotoxic symptoms
Grade III:
–
–
Severe
Severe pain, >12 inches edema/erythema at
12hrs
Grade II plus generalized petechia and
ecchymosis
Management
Hospital Management:
Degree of Envenomation:
Grade IV: Very Severe
–
–
–
Renal failure/blood tinged secretions
Coma and death
Local edema extend beyond involved extremity
Antivenin Therapy
 Most
important tx
 Horse
serum; skin testing (0.02ml of
1:10 dilution of antivenum w/ 0.9%
NaCl intradermally).
– (+) allergy ----> premedication w/
diphenhydramine HCL 25-50ug IV and
an epinephrine drip (2-20ug/min)
during antivenin administration.
Antivenin Therapy
 Antivenin
dose depends on the
severity of envenomation and
administered over 2-4hrs.
Grade I
Grade II
Grade III
 Pt
=
=
=
No antivenin
3-4 amp. in 500ml NSS
5-15amp. in 500ml NSS
re-evaluated every 2hrs and if
necessary a repeat dose of ativenin
shld be evaluated and given.
Antivenin Therapy
 Children:
antivenin be increased
by 50% bec. of higher rate of
venom to body mass.
 Pregnancy
 Antivenin
is not contraindicated
for coral snake bite should
be initiated even if envenomation is
only suspected for there are
frequently no local manifestation
Antivenin Therapy
 King
cobra & Black mamba snake
bites (Quick acting venom)
– The initial dose of antivenin is part of
it’s first aid tx.
Other form of Management
 Need
for respirator ---> for
respiratory failure
 Dialysis ----> for renal failure
 CNS Decompression
 Transfusion of blood and its
derivatives
 Nutrition
ARTHROPOD
BITE
Hymenoptera

BEES (Honeybee/bumble bee/ black hornet),
Wasps & Ants
–
–
–
–
Venom: drop by drop similar to rattle snake
Bees has a barb-shaped stinger
Stingers of ants & wasps
Venom:
1.
Histamine/serotonin (local rxn & pain)
–
–
2.
Fire ant venom
Causes tissue necrosis
Phospholipase/hyaluronidase
–
–
Destroy collagen
Allergen – can elicit IgE mediated response
Manifestation
Local rxn:
– Sting produced localize pain,
wheal --> pustule
– 20% produced large local rxn as
erythematous, edematous, painful
and pruritic areas larger than 10cm.
For 2-5 days
 Represents
combination of IgE mediated,
cell mediated & possible Arthus-type rxn.
Manifestation
Systemic rxn:
– Multiple stings can produced toxic
rxns.
1.
2.
3.
Vomiting, diarrhea, generalized edema
Cardiovascular collapse
Hemolysis
– 3% causes death due to
anaphylaxis w/in 1 hr.

Starts as urticaria ----> angioedema,
respiratory arrest 2nd to airway
edema and cardiovascular collapse
Treatment
Local therapy:
– Removal of sting (gentle scraping)
– Clean the site
– Pain: - apply ice
- vinegar
- topical or injected lidocaine
– Pruritus: - antihistamine
– Larger area: – elevate the site
- analgesia
- prednisone (1mg/k/day)
Treatment
Systemic therapy:
 Mild
anaphylaxis:
– 0.3 ml of 1:1000 epinephrine subQ
(children – 0.01ml/kg)
– Oral or IV antihistamine
 Severe
anaphylaxis:
– IVF
- endotracheal intubation
– Vasopressor
- steroid
– Bronchodilator - ICU monitoring
Spiders
Lactrodectus spiders (Black
Widow)
I.
–
–
Worldwide
female: black color w/ a distinctive red
ventral marking w/ hourglass shape
Nocturnal spider; bites defensively
Has neurotoxic venom
–
–


Act at presynaptic terminal
Enhance neurotransmitter release
–
–
Acetylcholine = neuromuscular junction (muscle
spasm)
Norepinephrine = produces adrenergic
stimulation
Spiders
I.
Lactrodectus spiders (Black
Widow)
Manifestation:
−
−
Erythema & pain at bite site
Neuromuscular symptoms (30mins)




Severe pain & spasm of large muscle grp
1.
Abdominal cramps (like acute abd)
2.
Dyspnea (chest tightness)
Adrenergic stimulation:
1.
HPN / diaphoresis / tachycardia
2.
Fasciculation / Nausea/vomiting
3.
Headache / paresthesia / fatigue / salivation
Acute symptoms peak several hours & resolve in
1-2 days
Death unusual
Spiders
I.
Lactrodectus spiders (Black Widow)
Treatment:
a. Mild envenomation

Local wound care:
–
–
–
Clean the site
Apply ice – to alleviate pain
tetanus prophylaxis
b. Severe envenomation



IV calcium gluconate (transient effect)
Narcotic & benzodiazepine - relieve muscle
pain
Antivenin (horse serum) – reserve for severe
envenomation due to anaphylaxis & serum
sickness (side effect)
Spiders
I.
Lactrodectus spiders (Black Widow)
Treatment:
b. Severe envenomation
–
Antivenen is recommended:
1. Pregnant women
2. Children under 16 yrs
3. Patients w/ severe reaction:
–
Uncontrolled HPN
–
Respiratory distress
–
Seizures
–
–
Skin testing = if (+) shd. Receive pretx w/
diphenhydramine.
Recommended antivenin dose = 1 vial,
repeated as necessary
Spiders
Brown Recluse (loxosceles):
II.
–
–
Necrotic arachnidism / loxoscelism
North & South America, Africa &
Europe
Char. = dark brown violin shape
marking over the cephalothorax
–


Has 3 pairs of eye
Both male & female bites when threatened
Spiders
II.
Brown Recluse (loxosceles):
Toxicology:
– Sphingomyelinase (phospholipase)
1.
2.
3.
4.

Dermonecrotic factor
Destroy cell membrane or RBC ---> hemolysis
Destroy endothelial cells ---> coagulation
Interact w/ platelets ----> platelet
aggregation
Necrosis – most severe in fatty areas
(abdomen & thigh)
Spiders
II.
Brown Recluse (loxosceles):
Manifestation:
Local:

Mild irritation to severe necrosis w/ ulceration
Ischemia (pain, itching, swelling & erythema) --->
blister ----> central area turns purple and
peripheral becomes pale due to vasoconstriction ---> necrosis ---> replaced by eschar that
separates producing ----> large ulcer that heals
w/in 2 months.
Spiders
II.
Brown Recluse (loxosceles):
Manifestation:
Systemic:
–
–
N/V, headache, fever, malaise, arthralgia
Maculopapular rash

Thrombocytopenia / Disseminated intravascular
coagulation

Hemolytic anemia

Coma and rarely death
Spiders
Brown Recluse (loxosceles):
II.
Treatment:
–
Bite site elevated
–
Cold compress: Cold can
1.
2.
–
–
–
–
Inhibits venom
Decrease inflammation & ulcer formation
Dapson = reduces local inflammation by
inhibiting neutrophil function. (100mg/d)
Debridement is recommended be done 1-2 wks
after the margin are defined
Split thickness skin grafting done while dapsone
is being continued
No antivenin
Scorpion
 Worldwide
/ Buthidae family
 Has neurotoxin that prevent sodium
channel closure
Manifestation:
– Local paresthesia & burning symptoms
– Cranial nerves & neuromuscular
dysfunction ----> respiratory distress
Scorpion
Treatment:
Local:
– Ice pack therapy / analgesic -> for pain
– Tetanus prophylaxis
Systemic:
– Monitor closely cardiovascular & respiratory
status in ICU
– Antivenin can reverses cranial nerve &
neuromuscular symptoms but can cause
anaphylaxis & delayed serum sickness
– Dose = 1 vial; if sensitive (diphenhydramine)
Marine Trauma &
Envenomation
Considerations:
1. Hypothermia
2. Drowning
3. Decompression syndrome (air
embolism)
4. Follow ABC
5. Bacterial isolates: C/S impt.
a.
b.
Gram (-) rods (vibrio sp.)
Staph / strep
6. Tetanus vaccine
Marine Trauma &
Envenomation
Considerations:
– Antibiotics:
1.
2.
3.
4.
3rd generation cephalosphorin
Quinolones
Gentamicin
Trimethoprin-sulfamethoxazole
– Debridement = to lower infection &
promote healing
– Wound are loosely closed & drained;
primary closure of distal extremity are
avoided.
– Antivenin if available is given after skin
testing
Injuries from Nonvenous
Aquatic Animals:
1.
SHARK:
– tiger / great white / bull shark
– Most injuries are lower extremities
– Powerful jaws & sharp teeth produces
crushing & tearing injuries
– Causes of death:
1.
2.
hypovolemic shock
drowning
Injuries from Nonvenous
Aquatic Animals:
2.
Moray Eels:
– Residing in holes or crevices at the
floor of the sea
– Bites and produces multiple puncture
wounds
– Hands is the most frequently bitten
3.
Alligators / Crocodilee
– Similar to shark bites
Injuries from Venous Aquatic
Invertebrates Animals:
1.
Coelenterates: (Jelly fish)
– Venomous stinging cells called
nematocyte
Mild envenomation:

Sting produces skin irritation
1. Pruritus, paresthesia & throbbing pain
2. Edema and erythema ----> blisters &
petechia ----> local infection &
ulceration.
Injuries from Venous Aquatic
Invertebrates Animals:
1.
Coelenterates: (Jelly fish)
– Venomous stinging cells called
nematocyte
Systemic envenomation:
–
Manifestation of anaphylactic rxn
– Fever, N/V, body malaise
–
Death due to hypotension and cardiorespiratory arrest.
Injuries from Venous Aquatic
Invertebrates Animals:
1.
Coelenterates: (Jelly fish)
Treatment:
– Clean the wound w/ sea water
– Apply diluted 5% acetic acid (vinegar) or
baking soda; it can inactivate the toxin;
applied for 30 mins or until the pain is
relieved
– After wound irrigation ---> remaining
nematocyst are removed by applying shaving
cream and shave the area w/ razor
– Local anesthesia, atihistamine or steroids can
relieve pain after the toxin is inactivated.
– Prophylactic antibiotic are usually
unnecessary
Injuries from Venous Aquatic
Invertebrates Animals:
2.
Echinodermata (starfish, sea
urchins & sea cucumber)
– Causes contact dermatitis
– Sea cucumbers feeds on coelenterates
and secrete nematocytes hence local
therapy for coelenterates shd be done
– Sea urchins – venomous spines
causing local & systemic rxn like
coelenterates
Injuries from Venous Aquatic
Invertebrates Animals:
2.
Echinodermata (starfish, sea
urchins & sea cucumber)
Treatment:
– Soak w/ hot water
– Spines of the organism located w/ xray or MRI and shd be removed
– Swelling alleviated w/ steroids
Injuries from Venous Aquatic
Invertebrates Animals:
3.
Mollusks (octopus):
– Can bite & inject tetrodoxine (paralytic
agent)
– Tx:


pressure & immobilize to contain venom
Systemic complication --- supportive
Injuries from Venous Aquatic
Vertebrates Animals:
1.
Stingrays:
– Whiplike appendages w/ spines at
its end that can produce puncture
wounds & lacerations
– Venom = vasoconstrictions causing
cyanosis of wound ----> myonecrosis
– Systemic rxn:
1.
2.
3.
Cardiac arrhythmia
Respiratory arrest
seizures
Injuries from Venous Aquatic
Vertebrates Animals:
1.
Stingrays:
Treatment:
– Wound irrigated and soaked w/water
for an hour
– Debridement, exploration and removal
of spines
– Wound is elevated, dressed and not
closed primarily
– Pain relieved locally and systemically
Injuries from Venous Aquatic
Vertebrates Animals:
2.
Sea Snakes: (Hydrophiidae)
– neurologic sign and symptoms
– Death is due to paralysis and resp.
arrest
– Tx similar to coral snake


Pressure, immobilizedation technique
Antivenin administration 1 ampule initially
then repeated as needed
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