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A snakebite, or snake bite, is a bite inflicted by a snake. Snakes often bite their prey when feeding, but occasionally, they bite humans. People can avoid and treat
snakebites by knowing their etiology, along with prevention tips, and first-aid and hospital
treatment.
Envenomation
Most snakebites are caused by non-venomous snakes. Of the roughly 3,000 known species of snake found worldwide, only 15
percent are considered dangerous to humans.[1] Snakes are
found on every continent except Antarctica. The most diverse and widely distributed snake family, the Colubrids, has only a few members which are harmful to humans. Of the 120 known indigenous snake species in
North America, only 20 are venomous to human beings, all belonging to the families Viperidae
and Elapidae.[1] However, every state except Maine, Alaska, and Hawaii is home to at least one of 20 venomous snake species.[2]
Since the act of delivering venom is completely voluntary, all venomous snakes are capable of biting without injecting venom
into their victim. Such snakes will often deliver such a "dry bite" (about 50% of the time)[3] rather
than waste their venom on a creature too large for them to eat. Some dry bites may also be the result of imprecise timing on the
snake's part, as venom may be prematurely released before the fangs have penetrated the victim’s flesh. Even without venom, some
snakes, particularly large constrictors such as those belonging to the Boidae and Pythonidae families, can deliver damaging bites; large specimens often causing severe lacerations as the victim or the snake itself pulls away, causing the flesh to be torn by the needle-sharp
recurved teeth embedded in the victim. While not normally as life-threatening as a bite from a venomous species, the bite can be
at least temporarily debilitating and as mentioned above, could lead to dangerous infections if improperly dealt with.
Frequency and statistics
Map showing global distribution of snakebite morbidity.
Since reporting is not mandatory, many snakebites go unreported. Consequently, no accurate study has ever been conducted to
determine the frequency of snakebites on the international level. However, some estimates put the number at 2.5 million bites,
resulting in perhaps 125,000 deaths.[4] Worldwide, snakebites occur most frequently in the summer season when snakes are active and humans are
outdoors.[2] Agricultural and tropical regions report more snakebites than anywhere
else.[5] Victims are
typically male and between 17 and 27 years of age.[2]
A late 1950s study estimated that 45,000 snakebites occur each year in the United
States.[3] Despite this large number, only 7,000 to
8,000 of those snakebites are actually caused by venomous snakes, resulting in an average of 10 deaths.[6][7] This
puts the chance of survival at roughly 499 out of 500. The majority of bites in the United States occur in the southwestern part
of the country, in part because rattlesnake populations in the eastern states are much
lower.[4]
Most snakebite related deaths in the United States are attributed to eastern and western diamondback rattlesnake bites.
Children and the elderly are most likely to die (Gold & Wingert 1994). The state of North
Carolina has the highest frequency of reported snakebites, averaging approximately 19 bites per 100,000 persons. The
national average is roughly 4 bites per 100,000 persons.[5]
Global evaluation of snakebites [8]
| Landmasses |
Population (x106) |
Total number of bites |
No. of envenomations |
No. of fatalities |
| Europe |
730 |
25,000 |
8,000 |
30 |
| Middle East |
160 |
20,000 |
15,000 |
100 |
| USA and Canada |
270 |
45,000 |
6,500 |
15 |
| Central and South America |
400 |
300,000 |
150,000 |
5,000 |
| Africa |
760 |
1,000,000 |
500,000 |
20,000 |
| Asia |
3,500 |
4,000,000 |
2,000,000 |
100,000 |
| Oceania |
20* |
10,000 |
3,000 |
200 |
| Total |
5,840 |
5,400,000 |
2,682,500 |
125,345 |
*Population at risk
Prevention
Snakes are most likely to bite when they feel threatened, are startled, provoked, and/or have no means of escape when
cornered. Encountering a snake is always considered dangerous and it is recommended to leave the vicinity. There is no practical
way to safely identify any snake species as appearances vary dramatically.
Snakes are likely to approach residential areas when attracted by prey, such as rodents.
Practicing regular pest control can reduce the threat of snakes considerably. It is
beneficial to know the species of snake that are common in home areas, while traveling, or hiking. Areas of the world such as
Africa, Australia, India,
and southern Asia are inhabited by many particularly dangerous snakes species. Being wary of
snake presence and ultimately avoiding it when known is strongly recommended.
Sturdy over-the-ankle boots, loose clothing and responsible behavior offer effective protection
from snakebites when in the wilderness. It is important to tread heavily and cause loud
ground noises. The rationale behind this is that the snake will feel the vibrations and flee from the area. However, this
generally only applies to North America as some larger and more aggressive snakes in other
parts of the world, such as king cobras and black
mambas, will actually protect their territory. When dealing with direct encounters it is best to remain silent and
motionless. If the snake has not yet fled it is important to step away slowly and cautiously.
When doing camping activities such as gathering firewood at night, it is important to make use of a flashlight and avoiding walking barefooted. Approximately 85% of the
natural snakebites occur below the victims' knees. [9] Snakes may be unusually active during especially warm nights with ambient
temperatures exceeding 70˚F., and a person not wearing footwear will have no protection from a potential bite.
It is advised not to reach blindly into hollow logs, flip over large rocks, and enter old cabins or other potential snake hiding-places. When rock climbing, it is not
safe to grab ledges or crevices without thouroughly and extensively examining them first, as snakes are coldblooded creatures and often sunbathe atop rock ledges.
Pet owners of domestic animals and/or snakes should be wary that a snake is capable of causing injury and that is necessary to
always act with caution — approximately 65% of snakebites occur to the victims’ hands or fingers. When handling snakes it is
never wise to consume alcoholic beverages. In the United States more than 40% of
snakebite victims intentionally put themselves in harms way by attempting to capture wild snakes or by carelessly handling their
dangerous pets — 40% of that number had a blood alcohol level of 0.1 percent or
more.[6]
It is also important to avoid snakes that appear to be dead, as some species will actually rollover on their backs and stick
out their tongue to fool potential threats. A snake's detached head can immediately reflex and
potentially bite. The bite can induce just as bad an effect as a live snake bite.[7] Dead snakes are also incapable of regulating the venom they inject, so a bite from a dead snake can
often contain large amounts of venom.
Symptoms
The most common symptoms of all snakebites are panic, fear and emotional instability, which may cause symptoms such as nausea and vomiting, diarrhea,
vertigo, fainting, tachycardia, and cold, clammy skin.[8]
Television, literature, and folklore are in part responsible for the hype surrounding snakebites, and a victim may have unwarranted
thoughts of imminent death.
Dry snakebites, and those inflicted by a non-venomous species, are still able to cause severe injury to the victim. There are
several reasons for this; a snakebite which is not treated properly may become infected (as is
often reported by the victims of viper bites whose fangs are capable of inflicting deep puncture wounds), the bite may cause
anaphylaxis in certain people, and the saliva and fangs of
the snake may harbor many dangerous microbial contaminants, including Clostridium
tetani. An infection which if neglected may spread, and, in the worst cases, even kill the victim.
Most snakebites, whether by a venomous snake or not, will have some type of local effect. Usually there is minor pain and
redness, but this varies depending on the site. Bites by vipers and some cobras may be extremely painful, with the local tissue sometimes becoming tender and severely
swollen within 5 minutes. This area may also bleed and blister.
Interestingly, bites caused by the Mojave rattlesnake and the speckled rattlesnake reportedly cause little or no pain despite being serious injuries. Victims may
also describe a “rubbery,” “minty,” or “metallic” taste if bitten by certain species of rattlesnake. Spitting cobras and Rinkhalses can spit venom in their victims’ eyes.
This results in immediate pain, vision problems, and sometimes blindness.
Some Australian elapids and most viper envenomations will cause coagulopathy, sometimes so severe that a person may bleed spontaneously from the mouth, nose, and even old,
seemingly-healed wounds. Internal organs may bleed, including the brain and intestines and will cause ecchymosis (bruising) of the victim's skin. If the bleeding is left unchecked the victim may die of
blood loss.
Venom emitted from cobras, most sea snakes, mambas, and other elapids contain toxins which
attack the nervous system. The victim may present with strange disturbances to their
vision, including blurriness. This is commonly due to the venom paralyzing the
ciliary muscle, which is responsible for focusing the lens of the eye, but can be the result of eyelid paralysis as well. Victims will also report
paresthesia throughout their body, as well as difficulty speaking and breathing. Nervous
system problems will cause a huge array of symptoms, and those provided here are not exhaustive. In any case, if the victim is
not treated immediately they may die from respiratory failure.
Venom emitted from some Australian elapids, the Russell’s viper, almost all vipers, and all
sea snakes causes necrosis of muscle tissue. Muscle tissue may begin to die throughout the
body, a condition known as rhabdomyolysis. Dead muscle cells may even clog the kidney
which filters out proteins. This, coupled with hypotension, can lead to kidney failure,
and, if left untreated, eventually death.
Treatment
It is not an easy task determining whether or not a bite by any species of snake is life-threatening. A bite by a North
American copperhead on the ankle is usually a moderate injury to a healthy adult,
but a bite to a child’s abdomen or face by the same snake may well be fatal. The outcome of all snakebites depends on a multitude
of factors; the size, physical condition, and temperature of the snake, the age and physical condition of the victim, the area
and tissue bitten (e.g., foot, torso, vein or muscle, etc.), the amount of venom injected, and finally the time it takes for the
patient to be treated and the quality of treatment.
Snake identification
Identification of the snake is important in planning treatment in certain areas of the world, but is not always possible.
Ideally the dead snake would be brought in with the patient, but in areas where snake bite is more common, local knowledge may be
sufficient to recognise the snake.
In countries where polyvalent antivenoms are available, such as North America, identification of snake is not of much
significance.
The three types of venomous snakes that cause the majority of major clinical problems are the viper, krait and cobra. Knowledge of what
species are present locally can be crucially important, as is knowledge of typical signs and symptoms of envenoming by each
species of snake.
A scoring systems can be used to try and determine biting snake based on clinical features,[9] but these scoring systems are extremely specific to a particular geographical
area.
First Aid
Snakebite first aid recommendations vary, in part because different snakes have different
types of venom. Some have little local effect, but life-threatening systemic effects, in which case containing the venom in the
region of the bite (e.g., by pressure immobilization) is highly desirable. Other venoms instigate localized tissue damage around
the bitten area, and immobilization may increase the severity of the damage in this area, but also reduce the total area
affected; whether this trade-off is desirable remains a point of controversy.
Because snakes vary from one country to another, first aid methods also vary; treatment methods suited for rattlesnake bite in
the United States might well be fatal if applied to a tiger snake bite in Australia. As always,
this article is not a legitimate substitute for professional medical advice. Readers are strongly advised to obtain guidelines
from a reputable first aid organization in their own region, and to beware of homegrown or anecdotal remedies.
However, most first aid guidelines agree on the following:
- Protect the patient (and others, including yourself) from further bites. While identifying the species is desirable in
certain regions, do not risk further bites or delay proper medical treatment by attempting to capture or kill the snake. If the
snake has not already fled, carefully remove the patient from the immediate area.
- Keep the patient calm and call for help to arrange for transport to the nearest
hospital emergency room, where antivenom for
snakes common to the area will often be available.
- Make sure to keep the bitten limb in a functional position and below the victim's heart level so as to minimize blood
returning to the heart and other organs of the body.
- Do not give the patient anything to eat or drink. This is especially important with consumable alcohol, a known
vasodilator which will speedup the absorption of venom. Do not administer stimulants or pain medications to the victim, unless specifically directed
to do so by a physician.
- Remove any items or clothing which may constrict the bitten limb if it swells (rings, bracelets, watches, footwear,
etc.)
- Keep the patient as still as possible.
- Do not incise the bitten site.
Many organizations, including the American Medical Association and American Red Cross, recommend washing the bite with soap
and water. However, do not attempt to clean the area with any type of chemical.
note: Treatment for Australian snake bites (which may differ to other areas of the world) stringently recommends against cleaning the
wound. Traces of venom left on the skin/bandages from the strike can be used in combination with a snake bite identification kit
to identify the species of snake. This speeds determination of which anti-venom to administer in the emergency room.
Pressure immobilization
Pressure immobilization is not appropriate for cytotoxic bites such as those of most vipers,[10][11][12] but
is highly effective against neurotoxic venoms such as those of most elapids.[13][14][15] Developed by
Struan Sutherland in 1978,[16] the object of pressure immobilization is to contain venom within a bitten limb
and prevent it from moving through the lymphatic system to the vital organs in the body
core. This therapy has two components: pressure to prevent lymphatic drainage, and immobilization of the bitten limb to prevent
the pumping action of the skeletal muscles. Pressure is preferably applied with an
elastic bandage, but any cloth will do in an emergency. Bandaging begins two to four inches above the bite (i.e. between the bite
and the heart), winding around in overlapping turns and moving up towards the heart, then back down over the bite and past it
towards the hand or foot. Then the limb must be held immobile: not used, and if possible held with a splint or sling. The bandage
should be about as tight as when strapping a sprained ankle. It must not cut off blood flow, or even be uncomfortable; if
it is uncomfortable, the patient will unconsciously flex the limb, defeating the immobilization portion of the therapy. The
location of the bite should be clearly marked on the outside of the bandages. Some peripheral edema is an expected consequence of this process.
Apply pressure immobilization as quickly as possible; if you wait until symptoms become noticeable you will have missed the
best time for treatment. Once a pressure bandage has been applied, it should not be removed until the patient has reached
a medical professional. The combination of pressure and immobilization can contain venom so effectively that no symptoms are
visible for more than twenty-four hours, giving the illusion of a dry bite. But this is only a delay; removing the bandage
releases that venom into the patient's system with rapid and possibly fatal consequences.
Outmoded treatments
The following treatments have all been recommended at one time or another, but are now considered to be ineffective or
outright dangerous, and should not be used under any circumstances. Many cases in which such treatments appear to work are in
fact the result of dry bites.
Old style snake bite kit that should not be used.
- Application of a tourniquet to the bitten limb is not recommended since reducing or
cutting off circulation can lead to tissue death in the area.
- Cutting open the bitten area often used prior to suction is not recommended (see also below) since it causes damage and
increases the risk of infection.
- Sucking out venom, either by mouth or with a pump does not work and may harm the affected area directly.[17] Suction started after 3 minutes
removes a clinically insignificant quantity - less than one thousandth of the venom injected - as shown in a human study.[18] In a study with pigs, suction not only caused no improvement
but led to necrosis in the suctioned area.[19] Suctioning by mouth presents a risk of further poisoning through the mouth's mucous
tissues.[20] The well-meaning family member or friend may
also release bacteria into the victim’s wound, leading to infection.
- Immersion in warm water or sour milk, followed by the application of Snake-Stones (also
known as Black Stones or la Pierre Noire), which are believed to draw off the poison in much the way a sponge soaks up
water.
In extreme cases, where the victims were in remote areas, all of these misguided attempts at treatment have resulted in injuries
far worse than an otherwise mild to moderate snakebite. In worst case scenarios, thoroughly constricting tourniquets have been
applied to bitten limbs, thus completely shutting off blood flow to the area. By the time the victims finally reached appropriate
medical facilities their limbs had to be amputated.
See also
Footnotes
- ^ Russell F (1990). "When a snake strikes".
Emerg Med 22 (12): 33-4, 37-40, 43.
- ^ a b Wingert W, Chan L (1988). "Rattlesnake bites in
southern California and rationale for recommended treatment". West J Med 148 (1): 37-44. PMID 3277335.
Retrieved on 2006-05-26.
- ^ Parrish H (1966). "Incidence of treated
snakebites in the United States". Public Health Rep 81 (3): 269-76. PMID 4956000.
- ^ Russell, Findlay E. “Snake venom poisoning.” Great Neck, N.Y.: Scholium,
1983:163.
- ^ Russell F. "Snake venom poisoning in the
United States". Annu Rev Med 31: 247-59. PMID 6994610.
- ^ Kurecki B, Brownlee H (1987). "Venomous
snakebites in the United States". J Fam Pract 25 (4): 386-92. PMID 3655676.
- ^ Gold B, Barish R (1992). "Venomous
snakebites. Current concepts in diagnosis, treatment, and management.". Emerg Med Clin North Am 10 (2): 249-67.
PMID 1559468.
- ^ Kitchens C, Van Mierop L (1987).
"Envenomation by the Eastern coral snake (Micrurus fulvius fulvius). A study of 39 victims". JAMA 258 (12): 1615-8.
PMID 3625968.
- ^ Pathmeswaran A, Kasturiratne A, Fonseka M,
Nandasena S, Lalloo D, de Silva H (2006). "Identifying the biting species in snakebite by clinical features: an epidemiological
tool for community surveys". Trans R Soc Trop Med Hyg 100 (9): 874-8. PMID 16412486.
- ^ Rogers I, Celenza T (2002). "Simulated field experience in the use of the Sam splint for pressure immobilization of
snakebite". Wilderness Environ Med 13 (2): 184-5. PMID 12092977.
- ^ Bush S, Green S, Laack T, Hayes W, Cardwell
M, Tanen D (2004). "Pressure immobilization delays mortality and increases intracompartmental pressure after
artificial intramuscular rattlesnake envenomation in a porcine model". Ann Emerg Med 44 (6): 599-604. PMID
15573035. Retrieved on 2006-06-25.
- ^ Sutherland S, Coulter A (1981). "Early management of bites by the eastern diamondback rattlesnake (Crotalus adamanteus): studies in monkeys (Macaca
fascicularis)". Am J Trop Med Hyg 30 (2): 497-500. PMID 7235137. Retrieved on 2005-06-25.
- ^ Rogers I, Winkel K (2005). "Struan Sutherland's "Rationalisation of first-aid measures for elapid snakebite"--a
commentary.". Wilderness Environ Med 16 (3): 160-3. PMID 16209471. Retrieved on 2006-06-25.
- ^ Sutherland S. "Deaths from snake bite in
Australia, 1981-1991". Med J Aust 157 (11-12): 740-6. PMID 1453996.
- ^ Sutherland S, Leonard R. "Snakebite
deaths in Australia 1992-1994 and a management update". Med J Aust 163 (11-12): 616-8. PMID
8538559.
- ^ Sutherland S, Coulter A, Harris R (1979).
"Rationalisation of first-aid measures for elapid snakebite". Lancet 1
(8109): 183-5. PMID 84206.
- ^ Holstege CP,
Singletary EM (2006). "Images in emergency medicine. Skin damage following application of suction device for snakebite".
Annals of emergency medicine 48 (1): 105, 113. DOI:10.1016/j.annemergmed.2005.12.019.
PMID 16781926.
- ^ Alberts M, Shalit M, LoGalbo F (2004).
"Suction for venomous snakebite: a study of "mock venom" extraction in a human model". Ann Emerg Med 43 (2): 181-6.
PMID 14747805.
- ^ Bush SP, Hegewald
KG, Green SM, Cardwell MD, Hayes WK (2000). "Effects of a negative pressure venom extraction device (Extractor) on local tissue
injury after artificial rattlesnake envenomation in a porcine model". Wilderness & environmental medicine 11
(3): 180–8. PMID 11055564.
- ^ Riggs BS, Smilkstein MJ, Kulig KW, et al. Rattlesnake envenomation
with massive oropharyngeal edema following incision and suction (Abstract). Presented at the AACT/AAPCC/ABMT/CAPCC Annual
Scientific Meeting, Vancouver, Canada, September 27-October 2, 1987.
- ^ Russell F (1987). "Another warning about
electric shock for snakebite". Postgrad Med 82 (5): 32. PMID 3671201.
- ^ Ryan A (1987). "Don't use electric shock
for snakebite". Postgrad Med 82 (2): 42. PMID 3497394.
- ^ Howe N, Meisenheimer J (1988). "Electric
shock does not save snakebitten rats". Ann Emerg Med 17 (3): 254-6. PMID 3257850.
- ^ Johnson E, Kardong K, Mackessy S (1987).
"Electric shocks are ineffective in treatment of lethal effects of rattlesnake envenomation in mice.". Toxicon 25
(12): 1347-9. PMID 3438923.
References
External links
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