Pharmacokinetics of Snake Venom.

Suchaya Sanhajariya,Geoffrey Isbister,Stephen Duffull

doi:10.3390/toxins10020073

Suchaya Sanhajariya, Geoffrey Isbister + Show 1 more

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https://doi.org/10.3390/toxins10020073

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Journal: Toxins	Publication Date: Feb 7, 2018
Citations: 95	License type: CC BY 4.0

Affiliation: University of Newcastle Australia, University of Otago

Abstract

Understanding snake venom pharmacokinetics is essential for developing risk assessment strategies and determining the optimal dose and timing of antivenom required to bind all venom in snakebite patients. This review aims to explore the current knowledge of snake venom pharmacokinetics in animals and humans. Literature searches were conducted using EMBASE (1974–present) and Medline (1946–present). For animals, 12 out of 520 initially identified studies met the inclusion criteria. In general, the disposition of snake venom was described by a two-compartment model consisting of a rapid distribution phase and a slow elimination phase, with half-lives of 5 to 48 min and 0.8 to 28 h, respectively, following rapid intravenous injection of the venoms or toxins. When the venoms or toxins were administered intramuscularly or subcutaneously, an initial absorption phase and slow elimination phase were observed. The bioavailability of venoms or toxins ranged from 4 to 81.5% following intramuscular administration and 60% following subcutaneous administration. The volume of distribution and the clearance varied between snake species. For humans, 24 out of 666 initially identified publications contained sufficient information and timed venom concentrations in the absence of antivenom therapy for data extraction. The data were extracted and modelled in NONMEM. A one-compartment model provided the best fit, with an elimination half-life of 9.71 ± 1.29 h. It is intended that the quantitative information provided in this review will provide a useful basis for future studies that address the pharmacokinetics of snakebite in humans.

Highlights

In 2009, WHO listed snakebite as a neglected tropical disease, recognising its importance alongside many infectious diseases [1]
This paper aims to bring together the current knowledge of the pharmacokinetics of snake venom by reviewing: (1) laboratory studies performed in animals to investigate the time course of venom concentrations in plasma; and (2) reports describing the time course of venom concentrations in humans
While there is a limited number of studies that investigated the pharmacokinetics of snake venom in animals and reported venom concentrations in humans, this review yields important quantitative information which can be used as a basis for the future development of snake venom pharmacokinetic models

Summary

Introduction

In 2009, WHO listed snakebite as a neglected tropical disease, recognising its importance alongside many infectious diseases [1]. This is a important public health issue in tropical and subtropical regions [2,3] mostly affecting those who live in rural areas, including the agricultural workforce in developing countries [3,4,5]. Delayed access to appropriate medical facilities, lack of antivenom, and limited supportive treatments are considered the main contributors to the high morbidity and mortality [3,4]. Venomous snakes with medical importance are predominantly front-fanged, originating from three families: Atractaspididae, Elapidae, and Viperidae [7].

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