Pathogenic mechanisms underlying adverse reactions induced by intravenous administration of snake antivenoms

Snake antivenoms are formulations of immunoglobulins, or immunoglobulin fragments, purified from the plasma of animals immunized with snake venoms. Their therapeutic success lies in their ability to mitigate the progress of toxic effects induced by snake venom components, when administered intraveno...

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Bibliographic Details
Published in:Toxicon (Oxford) 2013-12, Vol.76, p.63-76
Main Authors: León, Guillermo, Herrera, María, Segura, Álvaro, Villalta, Mauren, Vargas, Mariángela, Gutiérrez, José María
Format: Article
Language:English
Subjects:
Administration, Intravenous
adverse effects
Adverse reactions
Anaphylactic reactions
Anaphylactoid reactions
Anaphylaxis - immunology
Animals
antibodies
antigen-antibody complex
Antivenins - administration & dosage
Antivenins - adverse effects
Antivenins - immunology
antivenoms
Early reactions
Humans
Immunity, Humoral
immunoglobulin G
immunoglobulin M
intravenous injection
manufacturing
patients
physicochemical properties
Serum sickness
Serum Sickness - immunology
Snake antivenom
snake bites
Snake Bites - drug therapy
Snake Venoms - immunology
snakes
toxicity
venoms
World Health Organization
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Summary:Snake antivenoms are formulations of immunoglobulins, or immunoglobulin fragments, purified from the plasma of animals immunized with snake venoms. Their therapeutic success lies in their ability to mitigate the progress of toxic effects induced by snake venom components, when administered intravenously. However, due to diverse factors, such as deficient manufacturing practices, physicochemical characteristics of formulations, or inherent properties of heterologous immunoglobulins, antivenoms can induce undesirable adverse reactions. Based on the time lapse between antivenom administration and the onset of clinical manifestations, the World Health Organization has classified these adverse reactions as: 1 – Early reactions, if they occur within the first hours after antivenom infusion, or 2 – late reactions, when occurring between 5 and 20 days after treatment. While all late reactions are mediated by IgM or IgG antibodies raised in the patient against antivenom proteins, and the consequent formation of immune complexes, several mechanisms may be responsible for the early reactions, such as pyrogenic reactions, IgE-mediated reactions, or non IgE-mediated reactions. This work reviews the hypotheses that have been proposed to explain the mechanisms involved in these adverse reactions to antivenoms. The understanding of these pathogenic mechanisms is necessary for the development of safer products and for the improvement of snakebite envenomation treatment.
ISSN:0041-0101
1879-3150
DOI:10.1016/j.toxicon.2013.09.010