The four distinct types of venom act on the body differently: •
Proteolytic venom dismantles the molecular surroundings, including at the site of the bite. •
Hemotoxic venom acts on the cardiovascular system, including the heart and blood. •
Neurotoxic venom acts on the nervous system, including the brain. •
Cytotoxic venom has a localized action at the site of the bite.
Proteroglyphous snakes The effect of the venom of
proteroglyphous snakes (
sea snakes,
kraits,
mambas,
black snakes,
tiger snakes, and
death adders) is mainly on the
nervous system, respiratory
paralysis being quickly produced by bringing the venom into contact with the central nervous mechanism that controls respiration; the pain and local swelling that follow a bite are not usually severe. The bite of all the proteroglyphous elapids, even of the smallest and gentlest, such as the
coral snakes, is, so far as known, deadly to humans. However, some mildly venomous elapids remain, such as the hooded snakes (
Parasuta), bandy-bandies (
Vermicella), etc.
Vipers Viper venom (
Russell's viper,
saw-scaled vipers,
bushmasters, and
rattlesnakes) acts more on the vascular system, bringing about coagulation of the blood and clotting of the pulmonary arteries; its action on the nervous system is not great, no individual group of
nerve-cells appears to be picked out, and the effect upon respiration is not so direct; the influence upon the circulation explains the great depression, which is a symptom of viperine envenomation. The pain of the wound is severe and is rapidly followed by swelling and discoloration. The symptoms produced by the bite of the European vipers are thus described by Martin and Lamb: The Viperidae differ much among themselves in the toxicity of their venoms. Some, such as the Indian Russell's viper (
Daboia russelli) and saw-scaled viper (
E. carinatus); the American rattlesnakes (
Crotalus spp.), bushmasters (
Lachesis spp.), and
lanceheads (
Bothrops spp.); and the
African adders (
Bitis spp.),
night adders (
Causus spp.), and
horned vipers (
Cerastes spp.), cause fatal results unless a remedy is speedily applied. The bite of the larger European vipers may be very dangerous, and followed by fatal results, especially in children, at least in the hotter parts of the Continent; whilst the small
meadow viper (
Vipera ursinii), which hardly ever bites unless roughly handled, does not seem to be possessed of a very virulent venom, and although very common in some parts of
Austria and
Hungary, is not known to have ever caused a serious accident.
Opisthoglyphous colubrids Biologists had long known that some snakes had rear fangs, 'inferior' venom injection mechanisms that might immobilize prey; although a few fatalities were on record, until 1957, the possibility that such snakes were deadly to humans seemed at most remote. The deaths of two prominent herpetologists,
Robert Mertens and
Karl Schmidt, from African colubrid bites, changed that assessment, and recent events reveal that several other species of rear-fanged snakes have venoms that are potentially lethal to large vertebrates.
Boomslang (
Dispholidus typus) and
twig snake (
Thelotornis spp.) venoms are toxic to blood cells and thin the blood (hemotoxic, hemorrhagic). Early symptoms include headaches, nausea, diarrhea, lethargy, mental disorientation, bruising, and bleeding at the site and all body openings.
Exsanguination is the main cause of death from such a bite. The boomslang's venom is the most potent of all rear-fanged snakes in the world based on LD50. Although its venom may be more potent than some vipers and elapids, it causes fewer fatalities owing to various factors (for example, the fangs' effectiveness is not high compared with many other snakes, the venom dose delivered is low, and boomslangs are generally less aggressive in comparison to other venomous snakes such as cobras and mambas). Symptoms of a bite from these snakes include nausea and internal bleeding, and one could die from a
brain hemorrhage and
respiratory collapse.
Aglyphous snakes Experiments made with the secretion of the
parotid gland of
Rhabdophis and
Zamenis have shown that even
aglyphous snakes are not entirely devoid of venom, and point to the conclusion that the physiological difference between so-called harmless and venomous snakes is only one of degree, just as various steps exist in the transformation of an ordinary parotid gland into a venom gland or of a solid tooth into a tubular or grooved fang. == Use of snake venoms to treat disease ==