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INTRODUCTION
Ophitoxaemia is the rather exotic term that characterizes the clinical spectrum of snake bite
envenomation. Of the 2500-3000 species of snakes distributed world-wide, about 500 are
venomous. Based on their morphological characteristics including arrangement of scales,
dentition, osteology, myology, sensory organs etc., snakes are categorized into families. The
families of venomous snakes are Atractaspididae, Elapidae, Hydrophidae and Viperidae.
The major families in the Indian subcontinent are: Elapidae which includes common cobra,
king cobra and krait, Viperidae which includes Russell's viper, pit viper and saw-scaled viper
and Hydrophidae (the sea snakes) [1]. Of the 52 poisonous species in India, majority of bites
and consequent mortality is attributable to 5 species viz. Ophiophagus hannah (king cobra),
Naja Naja (common cobra), Daboia rusellii(Russell's viper), Bungarus caeruleus (krait) and
Echis carinatae (saw-scaled viper). There are 14 venomous species in Nepal. These include pit
vipers (5 species), Russell's viper, kraits (3 species), coral snake and 3 species of cobra
including the king cobra [2].
EPIDEMIOLOGY OF SNAKE BITE
Snake bite remains a public health problem in many countries even though it is difficult to be
precise about the actual number of cases. It is estimated that the true incidence of snake
envenomation could exceed 5 million per year. About 100,000 of these develop severe
sequelae. The global disparity in the epidemiological data reflects variations in health reporting
accuracy as well as the diversity of economic and ecological conditions [3].
To complicate matters further, accurate records to determine the exact epidemiology or even
mortality in snake bite cases are also generally unavailable [1]. Hospital records fall far short
of the actual number owing to dependence on traditional healers and practitioners of
witchcraft etc. It has been reported that in most developing countries, upto 80% of individuals
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bitten by snakes first consult traditional practitioners before visiting a medical centre [4,5].
Owing to the delay several victims die during transit to the hospital. Nevertheless, Swaroop
reported about 200,000 bites and 15,000 deaths in India due to snake bite poisoning as far
back as 1954 [6]. Based on an epidemiological survey of 26 villages with a total population of
nearly 19,000 individuals in Burdwan district of West Bengal state in India, Hati et al worked
out an annual incidence of 0.16% and mortality rate of 0.016% per year [7]. In Sri Lanka, the
overall annual mortality from a single venomous species ranges from 5.6 per 100,000 to as
high as 18 per 100,000 in some areas [8]. Myanmar seems to have the highest mortality in
Asia and 70% snakebites are by Russell's viper [9.10]. However, this may only reflect a better
reporting system prevalent in that country. Maharashtra, one of the states of India with the
highest incidence, reported 70 bites per 100,000 population and mortality of 2.4 per 100,000
per year [11]. The other states with a large number of snakebite cases include West Bengal,
Tamil Nadu, Uttar Pradesh and Kerala [1].
It has been estimated that 150 to 200 ophitoxaemia related deaths occur annually in Nepalese
hospitals [12]. The WHO estimated over 20,000 cases and 1000 deaths from ophitoxaemia in
Nepal [13].
Chippaux has stressed the importance of distinguishing between hazardous snakebites, which
occur when humans encounter a snake accidentally and 'illegitimate' snakebites inflicted by an
animal kept in captivity, or during snake handling. In industrialized countries the frequency of
illegitimate snake bites is increasing while hazardous bites predominate in developing
countries [3].
The age and sex incidence of snake bite victims throws light on the vulnerable section of the
population. While snake bite is observed in all age groups, the large majority (90%) are in
males aged 11-50 years. The predominance of male victims suggests a special risk of outdoor
activity [14].
The high incidence of snake bite between 0400 hours to midnight corresponds well with the
period of maximum outdoor activity observed in most studies. The incidence of snake bite
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shows a distinct seasonal pattern closely related to rainfall and temperature which compels the
reptiles to come out of their shelter [14].
Most patients are unable to identify the snake species either because of ignorance or poor
visibility in darkness. A large number of bites occur in fields, most individuals are unable to
spot the snake due to tall grass and crops. The observation that the most frequent site of bite
is the lower extremity suggests that in most cases the snake is inadvertently trodden upon.
Among the host factors, people involved in occupations and/or lifestyles requiring movement
in dense undergrowth or undeveloped land, are the worst affected. These include farmers,
herders and hunters [15] and workers on development sites. Paul reported an incidence of 7-
15 percent in children less than10 years [16]. Another study reported 37% incidence in the
second decade of life [14]. The sex ratio seems almost uniform all over with males being
affected twice or thrice as commonly as females [16]. For obvious reasons, bites are maximal
in lower limbs (about two thirds) [17] with 40 percent occurring in feet alone.
Morbidity and mortality resulting from snake-bite envenomation also depends on the species
of snake involved, since the estimated "fatal dose" of venom varies with species. In the Indian
setting, almost two-thirds of bites are attributed to saw-scaled viper (as high as 95% in some
areas like Jammu) [18], about one fourth to Russell's viper and smaller proportions to cobra
and kraits [19]. In Sri Lanka, Daboia russelliiaccounts for 40% of bites and Naja naja for
another 35% [8,20]. Daboia russelliialone accounts for 70% bites in Myanmar [9,10]. Among
the various species, the average yield per bite in terms of dry weight of lyophilised venom is
60 mg for cobras, 63 mg for Russel's viper, 20 mg for krait and 13 mg for saw scaled viper.
The respective "fatal doses" are much smaller viz 12 mg, 15 mg, 6 mg and 8 mg [21].
However, clinical features and outcomes are not as simple to predict because every bite does
not result in complete envenomation [22]. Epidemics of snake bite following floods owing to
human and snake populations getting concentrated together have been noted in Pakistan,
India and Bangladesh.
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PATHOPHYSIOLOGY OF OPHITOXAEMIA
Snake venom, the most complex of all poisons is a mixture of enzymatic and non-enzymatic
compounds as well as other non-toxic proteins including carbohydrates and metals. There are
over 20 different enzymes including phospholipases A2, B, C, D hydrolases, phosphatases
(acid as well as alkaline), proteases, esterases, acetylcholinesterase, transaminase,
hyaluronidase, phosphodiesterase, nucleotidase and ATPase and nucleosidases (DNA & RNA)
[1]. The non-enzymatic components are loosely categorized as neurotoxins and
haemorrhagens [16]. Different species have differing proportions of most if not all of the
above mixtures- this is why poisonous species were formerly classified exclusively as
neurotoxic, haemotoxic or myotoxic. The pathophysiologic basis for morbidity and mortality is
the disruption of normal cellular functions by these enzymes and toxins. Some enzymes such
as hyaluronidase disseminate venom by breaking down tissue barriers. The variation of venom
composition from species to species explains the clinical diversity of ophitoxaemia. There is
also considerable variation in the relative proportions of different venom constituents within a
single species throughout its geographical distribution, at different seasons of the year and as
a result of ageing.
The various venom constituents have different modes of action. Ophitoxaemia leads to
increase in the capillary permeability which may cause loss of blood and plasma volume into
the extravascular space. This accumulation of fluid in the interstitial space is responsible for
edema. The decrease in the intravascular volume may be severe enough to compromise
circulation and lead on to shock. Snake venom also has direct cytolytic action causing local
necrosis and secondary infection, a common cause of death in snake bite patients. The venom
may also have direct neurotoxic action leading to paralysis and respiratory arrest, cardiotoxic
effect causing cardiac arrest, myotoxic and nephrotoxic effect. Ophitoxaemia also causes
alteration in the coagulation activity leading to bleeding which may be severe enough to kill
the victim.
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CLINICAL MANIFESTATIONS
The clinical manifestations of snake-bite occur in a wide spectrum with some bites resulting in
minimal or no symptoms at all, while others are severe enough to result in systemic
manifestations and even death. Besides discussing these, we have also tried to include
unusual and rare presentations of ophitoxaemia.
SNAKE BITES WITH NO MANIFESTATIONS
The most obvious explanation for a confirmed snake-bite but no clinical manifestations is bite
by a non-poisonous species. However, it is well documented that a large number of poisonous
species also often do not cause symptoms. In a study of 432 snake-bites in North India,
Banerjee noted that 80% of victims showed no evidence of envenomation [1]. This figure
correlates almost exactly with a more recent observation from Brazil [24]. Reid also states
that over 50% of individuals bitten by potentially lethal venomous snakes escape with hardly
any features of poisoning [22]. This is corroborated by Saini's study of 200 cases in Jammu
region in India, in which only 117 showed symptom/sign of envenomation [19]. From the
relatively low frequency of poisoning following snakebites, it has been suggested that snakes
on the defensive when biting humans seldom inject much venom [25]. Other possible
explanations include a bite without release of venom (dry bite). In a study of 40 bites by
snakes which were captured and identified as poisonous, about one- third showed no clinical
or laboratory evidence of systemic envenoming suggesting a high incidence of dry bites [26].
There are also cases wherein venom is spewed into the victim's body as the snake attempts to
bite, thereby reducing the overall quantity of venom in the blood stream. Lamb has recorded
that almost 30% of cobra bites are "superficial" with minimal envenomation. Other protective
factors include the layers of clothing or boot leather through which the snake sometimes
strikes [27].
LOCAL MANIFESTATIONS
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With the possible exception of the psychological trauma of being bitten, local changes are the
earliest manifestations of snake bites [28]. Features are noted within 6-8 minutes but may
have onset up to 30 minutes [21,29]. Local pain with radiation and tenderness and the
development of a small reddish wheal are the first to occur. This is followed by oedema [16],
swelling and appearance of bullae - all of which can progress quite rapidly and extensively
even involving the trunk [19]. Tingling and numbness over the tongue, mouth and scalp and
paraesthesias around the wound occur mostly in viper bites [21]. Local bleeding including
petechial and/or purpuric rash is also seen most commonly with this family. Regional
lymphadenopathy has been reported as an early and reliable sign of systemic poisoning [30].
The local area of bite may become devascularized with features of necrosis predisposing to
onset of gangrenous changes. Generally Elapid bites result in early gangrene-usually-wet type
whereas vipers cause dry gangrene of slower onset; though one of the authors (JLM) has also
seen the reverse pattern. There are two interesting case reports of Raynaud's phenomenon
and gangrene in a limb different from the one bitten - both bites were by Russell's viper [31].
Secondary infection including tetanus and gas gangrene may also result [1].
SYSTEMIC MANIFESTATIONS
As mentioned previously, the most common and earliest symptom following snake bite
(poisonous or non poisonous) is fright [28], particularly of rapid and unpleasant death [21].
Owing to fright, a victim attempts 'flight' which unfortunately results in enhanced systemic
absorption of venom. These emotional manifestations develop extremely rapidly (almost
instantaneous) and may produce psychological shock and even death. Fear may cause also
transient pallor, sweating and vomiting. The time onset of poisoning is similar in different
species. Cobra produces symptoms as early as 5 minutes [16] or as late as 10 hours [28]
after the bite. Vipers take slightly longer - the mean duration of onset being 20 minutes [16].
However, symptoms may be delayed for several hours. Sea snake bites almost always
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produce myotoxic features within 2 hours so that they are reliably excluded if no symptoms
are evident within this period [16].
Other systemic manifestations depend upon the pathophysiological changes induced by the
venom of that particular species (See Fig. 1). As mentioned previously, based on the
predominant constituents of venom of a particular species, snakes were loosely classified as
neurotoxic (notably cobras and kraits), hemorrhagic (vipers) [2] and myotoxic (sea snakes).
However it is now well recognized that such a strict categorization is not valid as each species
can result in any kind of manifestations. Neurotoxic features are a result of selective d-
tubocurarine like neuro-muscular blockade which results in flaccid paralysis of muscles [16].
Cobra venom is however 15-40 times more potent than tubocurarine [1]. Ptosis is the earliest
[1] neuroparalytic manifestation followed closely by opthalmoplegia. Paralysis then progresses
to involve muscles of palate, jaw, tongue, larynx, neck and muscles of deglutition-but not
strictly in that order [16]. Generally muscles innervated by cranial nerves are involved earlier
[1]. However, pupils are reactive to light till terminal stages [1]. Muscles of chest are involved
relatively late with diaphragm being the most resistant. This accounts for the respiratory
paralysis, which is often terminal. Reflex activity is generally not affected in ophitoxaemia and
deep tendon jerks are preserved till late stages [1]. Onset of coma is variable, however
several cases of cobra bite progress to coma within 2 hours of bite. Symptoms that portend
paralysis include repeated vomiting, blurred vision, paraesthesiae around the mouth,
hyperacusis, headache, dizziness, vertigo and signs of autonomic hyperactivity.
Cardiotoxic features include tachycardia, hypotension and ECG changes. Cardiotoxicity occurs
in about 25% viperine bites and includes rate, rhythm and blood pressure fluctuations [32]. In
addition, sudden cardiac standstill may also occur owing to hyperkalemic arrest. Non
dyselectrolytemic acute myocardial infarction has also been reported [33]. Tetanic contraction
of heart following a large dose of cobra venom has been documented in vivo and in vitro [34].
There is a single case report of non-bacterial thrombotic endocarditis following viper bite [35].
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Myalgic features are the most common presentation of bites by sea snakes. Muscle necrosis
may also result in myoglobinuria.
Snake venoms cause haemostatic defects by a number of different mechanisms. Some cause
activation of intravascular coagulation and result in consumption coagulopathy. Notable in this
group is Daboia russelli which has procoagulant activating factors V and X. Certain other
venoms cause defibrinogenation by activating endogenous fibrinolytic system [35,36]. Besides
direct effects on the coagulation cascade, venoms also can cause qualitative and quantitative
defects in platelet function [39]. In India and Sri Lanka, Russell's viper envenomation is often
associated with massive intravascular haemolysis [37]. Haematological changes - both local as
well as systemic - are some of the commonest features of snake bite poisoning. Bleeding may
occur from multiple sites including gums [17], GIT (haematemesis and melaena), urinary
tract, injection sites and even as multiple petechiae and purpurae [28]. Subarachnoid
haemorrhages were documented in 5 of 200 cases in Saini's series of patients in Jammu
region [19]. In addition cerebral haemorrhage [39] and extradural haematoma [40] have also
been reported. Almost every species of snake can cause renal failure. It is fairly common
following Russell's viper bite and is a major cause of death [41] In a series of 40 viper bites,
renal failure was documented in about a third [42]. The extent of renal abnormality in them
correlated well with the degree of coagulation defect; however in a majority renal defects
persisted for several days after the coagulation abnormalities normalised: suggesting that
multiple factors are involved in venom induced ARF.
Rarer systemic manifestations including hypopituitarism [43,44], bilateral thalamic
haematoma [45] and hysterical paralysis [46] have also been reported.
MORTALITY
While there are many factors influencing the outcome in victims of snake-bite, there is an
overall agreement in the case fatality rate - generally varying from 2-10%[16,47-51]. The
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mortality rate is higher in children owing to larger amount of toxin per kg body weight
absorbed [27]. There is significantly higher mortality among victims who develop neurotoxicity
[47,51]. On an average - cobras and sea snakes result in about 10% mortality [28]-ranging
from 5-15 hours following bite. Vipers have a more variable mortality rate of 1-15% and
generally more delayed (up to 48 hours) [22].
UNUSUAL AND RARE MANIFESTATIONS OF OPHITOXAEMIA
Delayed manifestations
Authors are all uniform in their opinion that delayed onset of signs is rare. In their series of 56
cases, Saini et al documented 4 patients who had normal clinical and laboratory coagulation
profile at admission shortly following bite, but started bleeding as late as 4-6 days after the
bite [9]. Reid has noted that haemorrhage in the brain may be delayed up to one week after
bite [28]. The possible explanation for these manifestations is that local blebs constitute a
venom depot which is suddenly released into the blood stream, especially when the wound is
handled surgically [29]. Further, these depots are generally inaccessible to antivenom.
Nevertheless we have experience of a case showed good response to antivenom injected twice
(24 hour and 36 hour after bite) and still developed features of systemic neurotoxicity on the
7th day, despite remaining well for 51/2 days (unpublished observation). This occurred
without any interference at the local site. There is also the interesting report of a zookeeper
bitten on the finger following which he was administered antivenom. This prevented the
development of systemic poisoning but had no effect on the extent of local complications. This
individual developed compartment syndrome and spontaneous rupture of the extensor tendon
of the involved finger several weeks after the bite suggesting a delayed manifestation even in
the absence of systemic poisoning [52]. Kumar et al have reported a singular occurrence of
unconsciousness 6 days after an individual was bitten- he remained symptom free for the first
5 days [53].
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Recurrent manifestations
Recurrence of manifestations has not been discussed in most of the published literature. The
only record is Warrell's assertion that signs of systemic envenomation may recur hours or
even days after initially good response to antivenom. This has been explained by ongoing
absorption of venom from the blood - which has a half life of 26-95 hours [17]. He therefore
suggests daily evaluation of patients for at least 3-4 days. This theory would probably not be
able to account for our experience of recurrence of neurotoxic manifestations in a 10 year old
child bitten by a cobra, that occurred 12 hours after a relatively large dose of antivenom (10
vials). This child responded well to an additional dose of 10 more vials (Unpublished
observations). Available literature suggests the use of antivenom till symptoms and signs are
controlled, with some authors recommending its use as and when necessary [17].
Nevertheless, recurrence of signs of envenomation is still a rarity.
Long term effects of snake bite [22]
In most cases, swelling and oedema resolve within 2 to 3 weeks. However, they may
occasionally persist up to 3 months. In exceptional circumstances, they may also be
permanent. There are records, which suggest that coagulation disturbances [28] and
neurotoxicity may persist beyond 3 weeks. Necrosis of the local tissue, resultant gangrene and
the consequent cosmetic defects are obvious long term effects of ophitoxaemia [28].
Manifestations of snake bite not because of toxemia
Cases have been reported wherein the clinical manifestations of snake bite are not because of
the poisoning, but due to venom hypersensitivity [27]. This has been noted, irrespective of a
history of previous bite by the same or different species. Such patients may manifest with
anxiety, cutaneous sensitivity or tightness in the throat. They may also present with features
of anaphylactic shock. In a study of victims ofBothrops bite in rural Argentina, it was noted
that individuals bitten twice developed hives and angioedema within 15 minutes of the second
bite. Specific antibodies - both IgE and IgG were detectable in their serum . The
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crossreactivity among the venom ofBothrops sp suggests that these signs are because of
specific IgE antibodies against venom and must not be interpreted with toxic effects that
appear late [55].
Toxemia without bite
Naja nigricollis (spitting cobra) is a species which can eject venom with considerable accuracy
even from a distance of 6-12 feet [17]. The exact range and target of this snake's venom is a
matter of considerable debate among herpetologists. Most are in agreement that the venom is
aimed at the victim's eyes resulting in conjunctivitis and corneal ulceration. The latter may be
deep enough to cause anterior uveitis and hypopyon [56]. There are patients who have
required enucleation of both eyes following a vicious attack by the spitting cobra. Besides the
local manifestation, a dull headache persisting beyond 72 hours is a common feature. Spitting
cobra is an exotic species since even the king cobra does not eject venom in this manner.
Bite by a killed snake
There are instances on record wherein a recently killed snake and even those with severed
heads have ejected venom into those handling them. This is the basis for the absolute ban on
handling and extreme caution in transportation which is usually advocated for killed snakes
[17].
FACTORS AFFECTING SEVERITY AND OUTCOME IN OPHITOXAEMIA
There are several agent, host and environmental factors that modify the clinical presentation
and resultant mortality of ophitoxaemia.
Children overall fare worse than adults owing to greater amount of toxin injected per unit body
mass [16]. For the same age, individuals in a better state of health fare better than more
debilitated counterparts [27]. Patients bitten on the trunk, face and directly into bloodstream
have a worse prognosis [16]. Reid however asserts that the age of the victim and part of body
bitten have no relation to outcome [29]. Exercise and exertion following bite results in
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enhanced systemic absorption of venom. This is why individuals who panic and flee from the
scene of bite generally have a worse outcome [57]. The protection afforded by layers of
clothing or shoes sometimes mitigates the effects of envenomation to a considerable extent
[27]. Sensitivity of individual to venom naturally modifies the clinical picture as explained
earlier [27]. Victims of ophitoxaemia who develop secondary infection at the site of bite fare
worse than those uninfected [57].
The number and depth of the bites inflicted by the snake is a relative index of the amount of
venom injected [16]. Indirect evidence for this is also available by studying the volume of
venom remaining in the glands and fangs. The condition of fangs, intact or broken, is also an
indirect indicator of amount of envenomation. The species of snake which has bitten alters
outcome since the amount of venom injected and the 'lethal dose' varies with species [21].
The length of time a snake clings to its victim and the presence or absence of pathogenic
organisms in its mouth are two other agent factors affecting outcome. The time of bite (day or
night) and breeding habits of the snake are not related to outcome in any way [27]. The size
of snake does not appear to be related to the efficacy of envenomation since several small
specimens also have lethal capacity.
Among the environmental factors, the nature of first-aid and the time elapsed before
administration is perhaps the single most important factor affecting outcome [27]. The
circumstances that provoked the snake to bite may also have a bearing on clinical
presentation and survival of victims.
APPROACH TO AN INDIVIDUAL ' ALLEGEDLY BITTEN' BY A SNAKE
This section is included here because of the importance of confirming an alleged bite by a
snake. This has relevance on the management issues. Quite often, the victim who has
ventured into open fields or dense undergrowth is bitten by a species which is not immediately
identifiable. In addition, the psychological reaction generated by this unexpected event impels
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him/her to flee: thereby further reducing the probability of confirming the snake-bite.
Therefore, in a patient presenting with history suggestive of snake-bite, it is important to
address the following questions .
1. Is it actually a snake bite?
The classical setting for a snake bite has been described above. Bite is identified by the
presence of 2 puncture wounds which may vary in distance from a few millimeters to as much
as 4 cms, depending on the species. The depth of the bite varies anywhere from 1-8
millimeter [2]. In some cases, fang puncture sites are not easily visible. They may be brought
to view by Bailey's method of injecting lignocaine through a fine gauge needle and observing
the sites where it oozes from [27]. In some cases of bite, fang marks may not be visible at all.
This has been attributed to a glancing strike or protection by clothing or foot wear. For the
same reason, puncture wounds may even be single at times. There are instances wherein a
snake has attacked repeatedly leaving multiple puncture marks [27]. Non-poisonous snakes
generally leave a row of tooth impressions, but not fangs marks [21]. However, it is advocated
that too much stress should not be laid on this rather variable feature.
2. Could it be anything else?
Russell contends that the marks left by snakes may be so variable as to make it difficult to
distinguish from bites of rats, mice, cats and even lizards. They may also be confused with
insect and scorpion bites/stings. Scratches or penetration by thorns or cactus may also leave
marks like those of fangs; all these may be accompanied by local changes further
compounding the problem of correct diagnosis [27].
3. Is it likely to be a poisonous species?
There is no simple, reliable method to distinguish poisonous from non-poisonous species.
Poisonous species generally have fangs but these may be very small in elapids and not easily
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visible in vipers. Tails are usually not compressed and belly scales are small in non-venomous
species - all of which are opposite in poisonous species [21]. Short of identifying the offending
reptile, the only way to determine the poisonous nature of a species is to watch for features of
envenomation viz local changes and/or systemic features.
4. Which species is involved?
Among the commonest poisonous species in India, the cobra (nag) is easiest to identify owing
to a mental picture well entrenched in most peoples minds. Technically, however it is
described as having a hood bearing a single or double spectacle shaped mark on its dorsal
aspect. A white band in the region where the body touches the hood is another identifying
feature. The common krait (karayat) is steel blue, often shining and has a single or double
white band across the back. The head is covered with large shields. In general, elapidae have
relatively short, fixed front fangs; as do the Hydrophidae. Russell's viper (daboia, kander) is
identified by its flat, triangular head with a white 'V' shaped mark and three rows of diamond-
shaped black or brown spots along the back. The sawscaled viper (afai) is distinguished from
the other species by a white mark on the head resembling a bird's footprint or an arrow. The
fangs of vipers are long, curved, hinged, front fangs, which have a closed venom channel,
giving them a structure akin to a hypodermic needle. Besides these, there are several other
differentiating characteristics among the poisonous snakes, which are of more interest to an
expert than medical personnel. It has been claimed that most venomous species produce
characteristic sounds, which may help in identification. These include hissing (Russell's viper),
rasping (saw-scaled viper) and 'growling' (king cobras).
LABORATORY AIDS IN OPHITOXAEMIA
The laboratory serves rather poorly in the diagnosis of snake-bite, with the exception of ELISA
studies which are now available to identify the species involved, based on antigens in the
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venom [22]. These tests are expensive and not freely available-hence of limited value; except
for epidemiological study [16]. Laboratory tests are useful for monitoring, prognosticating
victims of ophitoxaemia, as well as determining stages of intervention. Recently emphasis is
being laid on the value of immuno-enzymatic tests to identify the offending species accurately
[58].
Blood changes include anaemia, leucocytosis and thrombocytopenia [16]. In addition,
peripheral smear may show evidence of haemolysis, particularly in viperine bites [19].
Deranged coagulant activity manifested by prolonged clotting time and prothrombin time may
also be evident [28]. The quality of clot formed may be a better indicator of coagulation
capability than the actual time required for formation, since clot lysis has been observed in
several patients who had normal clotting time [19]. Hypofibrinogenemia may also be evident
[16]. Among the metabolic changes, hyperkalaemia and hypoxemia with respiratory acidosis,
especially with neuroparalysis may be present [16].
Urine examination could reveal haematuria, proteinuria, haemoglobinuria or myoglobinuria. In
cases of ARF, all features of azotemia are also present. CSF haemorrhage has been
documented in a minority of victims [16,19].
ECG changes are generally non-specific and include alterations in rhythm (predominantly
bradycardia) and atrioventricular block with ST segment elevation or depression. T wave
inversion and QT prolongation [1] have also been noted. Tall T waves in lead V2 and patterns
suggestive of acute anterior wall infarction have been reported as well [32]. In addition, cases
who develop hyperkalaemia manifest typical changes of this dyselectrolytaemia [17].
Serum cholesterol at admission has been found to correlate negatively with severity of
envenomation. Rabbits exposed to snake venom in an experimental setting were noted to
have a dose dependent decrease in serum cholesterol. This fall which is independent of the fall
in serum albumin can only partially be explained by transcapillary lipoprotein leakage. It is
more likely an indication of change in lipoprotein transport and metabolism as a result of
phospholipase A2 in venom [59].
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Recently EEG changes have been noted in up to 96% of patients bitten by snakes; starting
within hours of the bite. Interestingly none of them showed any clinical features suggestive of
encephalopathy. 62% showed grade I changes defined as decrease in (activity or/and increase
in -activity or presence of sharp waves. 31% cases manifested grade II changes viz. sharp
waves or spikes and slow waves; classified as moderate to severe abnormality. The remaining
4% showed severe abnormality with diffuse (activity (grade III). These abnormal EEG patterns
were picked up mainly in the temporal lobes [60].
MANAGEMENT OF OPHITOXAEMIA
A review of literature pertaining to management of snake bite makes interesting reading,
particularly with respect to traditional methods [27]. However, even a brief review of these
novel practices is beyond the scope of the present discussion. Management aspects are
fraught with controversy with experts differing over most, if not all facets of therapy. Owing to
the variables involved in therapy, an ideal prospective clinical trial will likely never be done
[61]. This article attempts to discuss management under the following heads:
a) First aid
b) Specific therapy
c) Supportive therapy
First aid
Most physicians are in disagreement with regard to nature, duration and even necessity of first
aid. Russell advises minimal wastage of time with first-aid measures which often end up doing
more harm than good [27]. Nevertheless, it is felt that reassurance and immobilization of the
affected limb with prompt transfer to a medical facility are the cornerstones of first-aid care
[16,22]. Most experts also advocate the application of a wide tourniquet or crepe bandage
over the limb to retard the absorption and spread of venom [16,28]. The tourniquet should be
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tight enough to occlude the lymphatics, but not venous drainage [1]; though some also prefer
to occlude the veins. Enough space to allow one finger between the limb and bandage is most
appropriate. Should the limb become edematous, the tourniquet should be advanced
proximally [16]. Tourniquets should never be left in place too long for fear of distal avascular
necrosis [27]. In a recent report from Brazil, two cases were reported to have increased local
envenoming subsequent to a tourniquet [62].
It was formerly believed and therefore advocated that incision over the bite drains out venom.
However, it has now been established from animal experiments that systemic venom
absorption starts almost instantly; this form of 'therapy' is therefore being questioned [27,28].
Some experts suggest that longitudinal incisions within fifteen minutes of the bite may be
beneficial [1].
Suction of the local area, a staple of snake-bite management in Indian cinema, also has its
advocates and detractors. While most have rejected it for its questionable efficacy [63], there
are others who advise this method on the grounds of rapidly removing a large amount of
venom [64]. There is a patented device, the Sawyer extractor available in the United Kingdom
for this purpose [64]. It's suggested use has generated controversy with a series of letters to
the editor of NEJM justifying or condemning its use [64,65].
Reid has advised that the wound site be minimally handled. Most authors recommend saline
cleaning and sterile dressing [28]. Some however advise that the wound be left open [1,29].
There is disagreement over the use of drugs as part of first-aid care. It has been suggested
that NSAIDS particularly aspirin may be beneficial to relieve local pain. Russell however
dissuades use of analgesic and in particular aspirin for fear of precipitating bleeding [27]. In
Reid's experience, pain relief with placebo was as effective as NSAID [22]. Codeine may be
useful in some cases [1]. Similarly there are proponents as well as opponents for use of
sedatives [27].
Almost all experts agree that the offending snake must not be provoked further by attempts to
capture or kill it [27]. This is for fear of provoking an already enraged reptile to strike again.
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However, Gellert insists that in the United States, carnivorous bats and animals which bite
man are captured as per guidelines of CDC to examine for rabies; therefore a snake should be
treated no differently and every effort should be made to capture/kill it [65].
Specific therapy - Antivenom
Antivenoms are prepared by immunizing horses with venom from poisonous snakes and
extracting the serum and purifying it. Antivenoms or antivenins may be species specific
(monovalent) or effective against several species (polyvalent). Monovalent antivenom is ideal
[1], but the cost and non-availability, besides the difficulty of accurately identifying the
offending species - makes its use less common [17].
Indications for use
There are specific indications for use of antivenom [11,17]. Every bite, even if by poisonous
species does not merit its use. This caution against the empirical use of antivenom is due to
the risk of hypersensitivity reactions [28,29]. Therefore, antivenom is indicated only if serious
manifestations of envenomation are evident viz coma, neurotoxicity, hypotension, shock,
bleeding, DIC, acute renal failure, rhabdomyolysis and ECG changes [16]. In the absence of
these systemic manifestations, swelling involving more than half the affected limb [1],
extensive bruising or blistering and progression of the local lesions within 30-60 minutes [1]
are other indications.
In a study of Elapid ophitoxaemia from India, victims with neuromuscular paralysis were
administered anticholinesterase/neostigmine. Four of the patients did not receive any
antivenom; all survived. Of 8 who received antivenom 3 were given less than 50 units; all 3
survived. The other 5 were administered more than 50 units; however 2 died. The authors
concluded that antivenom has no definite role in Elapid ophitoxaemia [66]. They emphasized
the role of anticholinesterase and supportive care as cornerstones of management. In view of
the large number of dry bites observed in a Brazilian study, the authors recommended that
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antivenom be postponed or not administered to victims presenting with no manifestations of
local or systemic envenomation [67].
Dose
Despite widespread use of antivenom, there are virtually no clinical trials to determine the
ideal dose [68]. Conventionally 50 ml (5 vials) is infused for mild manifestations like local
swelling with or without lymphadenopathy, purpura or echymosis. Moderate envenomation
defined by presence of coagulation defects or bradycardia or mild systemic manifestations,
merits the use of 100 ml (10 vials). 150 ml (15 vials) is infused in severe cases, which
includes rapid progression of systemic features, DIC, encephalopathy and paralysis [16].
Thomas and Jacob have attempted to study the effect of a lower dose in a randomized
controlled trial and established that, in a cohort of patients who received half the conventional
dose, there is no significant difference in the time taken for clotting time to normalize [68].
Philip also advocates using lower doses than conventionally used [1].
Based on a study of 24 cases of demonstrated Russell's viper venom antigenemia, wherein the
mean amount of monospecific antivenom correcting blood incoagualability was 165 (59.3 ml,
it has been recommended that 60 ml be administered intravenously at 6 hourly intervals till
blood coagulability is restored [69]. This dose appears to have been appropriate in a group of
Nepalese patients, wherein 71% received less than 6 vials per patient [14]. Theoretically,
there does not seem to be an upper dose limit and even 45 vials (4500 units) have been used
successfully in a patient [14].
AdministrationThe freeze dried powder is reconstituted with 10 ml of injection water or saline or dextrose . A
test dose is administered on one forearm with 0.02 ml of 1:10 solution intradermally. Similar
volume of saline in the other forearm serves as control. Appearance of erythema or wheal
greater than 10 mm within 30 min is taken as a positive test [16]. In this event,
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desensitization is advised starting with 0.01 ml of 1:100 solution and increasing concentration
gradually at intervals of 15 minutes till 1.0 ml s.c can be given by 2 hours [16]. Infusion is
started at 20 ml/kg per hour initially and slowed down later [16].
Antivenom is administered by the intravenous route [16] and never into fingers or toes [27].
Some authors recommend that 1/3 to 1/2 the dose be given at the local site to neutralize
venom there (De Vries) [27]. However, animal experiments have established that absorption
begins almost instantly from bite sites. Besides this, systemic administration of antivenom has
been shown to be effective at the local site as well. Therefore most experts do not advise local
injection of antivenin [27]. Efficacy of intramuscular administration of antivenom followed by
standard hospital management has also been evaluated and a definite reduction in the number
of patients with systemic envenomation, complications and mortality from Russell's viper
toxemia has been noted [71]. This route of administration is likely to have value in a field
setting prior to transfer to better facilities.
Timing
There is no consensus as to the outer limit of time of administration of antivenom. Best effects
are observed within four hours of bite [16]. It has been noted to be effective in symptomatic
patients even when administered up to 48 hours after bite. Reports suggest that antivenom is
efficacious even 6-7 days after the bite [72]. This is corroborated by Saini's observations also
[73]. In experimental settings, rats injected with antivenom even 3 weeks after the bite
showed good response [74]. It is obvious that when indicated, antivenom must be
administered as early as possible and data showing efficacy with delayed administration is
based on use in settings where patients present late.
Response
Response to infusion of antivenom is often dramatic [16] with comatose patients sitting up
and talking coherently within minutes of administration. Normalization of blood pressure is
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another early response [70]. Within 15 to 30 minutes, bleeding stops though coagulation
disturbances may take up to 6 hours to normalize. Neurotoxicity improves from the first 30
minutes but may require 24 to 48 hours for full recovery [8].
If response to antivenom is not satisfactory use of additional doses is advocated. However, no
studies establishing an upper limit are available [14] infusion may be discontinued when
satisfactory clinical improvement occurs even if recommended dose has not been completed
[21]. In experimental settings, normalization of clotting time has been taken as end-point for
therapy.
Reactions
Hypersensitivity reactions including the full range of anaphylactic reactions may occur in 3-4%
of cases, usually within 10 to 180 minutes after starting infusion. These usually respond to
conventional management including adrenaline, anti-histamines and corticosteroids [17].
Availability
Several antivenom preparations are available internationally. In India, polyvalent antivenom
prepared by C.R.I., Kasauli is effective against the 4 commonest species [16]. Antivenom
produced at the Haffkine Corporation, Parel includes more species as well. This is about 10
times as expensive as the former.
The WHO has designated the Liverpool School of Tropical Medicine as the international
collaborating centre for antivenom production and/or testing.
Supportive Therapy
In cases of bleeding, replacement with fresh whole blood is ideal. Fresh frozen plasma and
fibrinogen are not recommended.
Volume expanders including plasma and blood are recommended in shock, but not crystalloids
[16]. Persistent shock may require inotrope support under CVP monitoring [16]. Early
mechanical ventilation is advocated in respiratory failure though dramatic responses have also
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been observed with edrophonium followed by neostigmine [29]. Cases of acute renal failure
generally respond to conservative management. Occasionally peritoneal dialysis may be
necessary. In cases of DIC, use of heparin should be weighed against risk of bleeding and
hence caution is advocated [1].
Routine antibiotic therapy is not a must [28] though most Indian authors recommend use of
broad spectrum antibiotics [16]. Chloramphenicol has been claimed to be useful as a post bite
antibiotic even when used orally since it is active against most of the aerobic and anaerobic
bacteria present in the mouths of snakes. Alternatives include cotrimoxazole, flouroquinolones
with or without metronidazole or clindamycin for anaerobic cover [62]. A study of the
organisms isolated from the mouth of the Malayan pit vipers suggests that crystalline penicillin
with gentamicin would also be appropriate antibiotic cover following snakebite [75].
Recent studies have reported the beneficial effects of intravenous immunoglobulin (IVlg) in
ophitoxaemia. There are suggestions that its administration may improve coagulopathy,
though its effect on neurotoxicity is questionable. A pilot study indicates that IVIg with
antivenom eliminates the need to repeat antivenom for envenomations associated with
coagulopathy [76].
A compound extracted from the Indian medicinal plant Hemidesmus indicus R (2-hydroxy-4
methoxy benzoic acid [77] has been noted to have potent anti-inflammatory, antipyretic and
anti-oxidant properties, particularly against Russell's viper venom [78]. These experiments
suggest that chemical antagonists from herbs hold promise in the management of
ophitoxaemia; particularly when used in the presence of antivenom.
Four cases of tetanus have been documented following snake-bite [27] hence tetanus toxoid is
a must. Early surgical debridement is generally beneficial [16,70] though fasciotomy is usually
more harmful than useful [16,70]. There is no role for steroid therapy in acute snake bite
[27]. Although it delays the appearance of necrosis, it does not lessen the severity of outcome
[29].
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Conclusion
Snakes do not generally attack human beings unprovoked. They are reputed to be more afraid
of man than vice-versa. Nevertheless once bitten, a wide spectrum of clinical manifestations
may result. The emphasis for treatment should be placed on early and adequate medical
management. Overemphasis on first-aid can be dangerous because its value is debatable and
too much valuable time is wasted in its administration.
"She died because she never knew
These simple little rules and few:
The snake is living still"
- H. Belloc.
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