Viperid venoms typically contain an abundance of
protein-degrading enzymes, called
proteases, that produce symptoms such as pain, strong local swelling and
necrosis, blood loss from cardiovascular damage complicated by
coagulopathy, and disruption of the blood-clotting system. Also being vasculotoxic in nature, viperine venom causes vascular
endothelial damage and
hemolysis. Death is usually caused by collapse in blood pressure. This is in contrast to
elapid venoms, which generally contain
neurotoxins that disable muscle contraction and cause paralysis. Death from elapid bites usually results from
asphyxiation because the diaphragm can no longer contract, but this rule does not always apply; some elapid bites include
proteolytic symptoms typical of viperid bites, while some viperid bites produce
neurotoxic symptoms. This is an important adaptation, as many vipers have inefficient digestive systems. Due to the nature of proteolytic venom, a viperid bite is often a very painful experience and should always be taken seriously, though it may not necessarily prove fatal. Even with prompt and proper treatment, a bite can still result in a permanent
scar, and in the worst cases, the affected limb may even have to be
amputated. A victim's fate is impossible to predict, as this depends on many factors, including the species and size of the snake involved, how much venom was injected (if any), and the size and condition of the patient before being bitten. Viper bite victims may also be
allergic to the venom or the
antivenom.
Behavior These snakes can decide how much venom to inject depending on the circumstances. The most important determinant of venom expenditure is generally the size of the snake; larger specimens can deliver much more venom. The species is also important, since some are likely to inject more venom than others, may have more venom available, strike more accurately, or deliver a number of bites in a short time. In predatory bites, factors that influence the amount of venom injected include the size of the prey, the species of prey, and whether the prey item is held or released. The need to label prey for chemosensory relocation after a bite and release may also play a role. In defensive bites, the amount of venom injected may be determined by the size or species of the predator (or antagonist), as well as the assessed level of threat, although larger assailants and higher threat levels may not necessarily lead to larger amounts of venom being injected.
Prey tracking '', the venom of which contains proteins allowing the snake to track down bitten prey
Hemotoxic venom takes more time than neurotoxic venom to immobilize prey, so viperid snakes need to track down prey animals after they have been bitten, ==Subfamilies==