ANAVIP® interaction with western pygmy rattlesnake venom: In vitro assesment of reactivity using SE-HPLC.

Every year large numbers of venomous snake bites occur around the world, especially in tropical areas. The World Health Organization classifies venomous snake bites as one of their highest priority neglected tropical diseases, one of the reasons being the short supply of antivenom compared to the number of snake envenomations. The standard of care for snake envenomation is administration of antivenom.

Bothrops fonsecai snake venom activities and cross-reactivity with commercial bothropic venom.

In this work, we examined some biochemical and biological activities of Bothrops fonsecai venom, a pitviper endemic to southeastern Brazil, and assessed their neutralization by commercial bothropic antivenom (CAv). Cross-reactivity of venom with CAv was also assessed by immunoblotting and size-exclusion high performance chromatography (SE-HPLC). Bothrops fonsecai venom had PLA, proteolytic and esterase activities that were neutralized to varying extents by venom:antivenom ratios of 5:1 and 5:2 (PLA and esterase activities) or not significantly by either venom:antivenom ratio (proteolytic activity).

In vitro evaluation of total venom-antivenin immune complex formation and binding parameters relevant to antivenin protection against venom toxicity and lethality based on size-exclusion high-performance liquid chromatography.

Total venom-antivenin immune complex formation and binding parameters relevant to antivenin protection against venom toxicity and lethality can be evaluated using size-exclusion high-performance liquid chromatography (SE-HPLC). Simple integration of regions within SE-HPLC elution profiles was used to compare binding characteristics of Crotalidae Polyvalent Immune Fab (Ovine) antivenin (FabAV) and Crotalus atrox (western diamondback rattlesnake; C. atrox), C.

CroFabtrade mark total anti-venom activity measured by SE-HPLC, and anti-PLA(2) activity assayed in vitro at physiological pH.

One problem in the development and refinement of anti-venoms is ascertaining both overall anti-venom reactivity and which key toxins are neutralized. Here we show by SE-HPLC that the in vitro reaction of CroFab anti-venin with Crotalus atrox venom asymptotically nears completion (>95%) by 11 min at 4 degrees C by following the change in area under chromatographic peaks. The peaks for reactants decrease and the formation of high molecular weight complexes increases with time.