Neurobehavioral toxicology of pyrethroid insecticides in adult animals: A critical review

Abstract Pyrethroids are pesticides with high selectivity for insects. In order to identify strengths and gaps in the database for pyrethroid neurobehavioral toxicology, we have critically analyzed the data from peer-reviewed literature. This review includes dose–response data that have been recentl...

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Bibliographic Details
Published in:Neurotoxicology and teratology 2008-03, Vol.30 (2), p.55-78
Main Authors: Wolansky, M.J, Harrill, J.A
Format: Article
Language:English
Subjects:
Animals
Behavior, Animal - drug effects
Biological and medical sciences
Emergency
Endpoint Determination
Insecticides - chemistry
Insecticides - poisoning
Insecticides - toxicity
Mammals
Medical Education
Medical sciences
Neurobehavioral toxicology
Neurotoxicity Syndromes - psychology
Pesticides, fertilizers and other agrochemicals toxicology
Pyrethrins - chemistry
Pyrethrins - poisoning
Pyrethrins - toxicity
Pyrethroids
Risk assessment
Toxicology
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Summary:Abstract Pyrethroids are pesticides with high selectivity for insects. In order to identify strengths and gaps in the database for pyrethroid neurobehavioral toxicology, we have critically analyzed the data from peer-reviewed literature. This review includes dose–response data that have been recently generated demonstrating consistent findings for low-dose, acute, oral exposure to pyrethroids in small rodents. All pyrethroids tested (i.e., about twenty compounds), regardless of structure, produce a decrease in motor activity in a variety of test protocols. The range of relative potencies varies more than two orders of magnitude, and thresholds for motor activity were found well below doses that produce overt signs of poisoning. Six compounds (allethrin, permethrin, cis -permethrin, deltamethrin, cypermethrin, and fenvalerate) impair schedule-controlled operant responding, seven compounds (pyrethrum, bifenthrin, S -bioallethrin, permethrin, β-cyfluthrin, cypermethrin, and deltamethrin) decrease grip strength, and two compounds (deltamethrin and α-cypermethrin) produce incoordination using the rotarod. In addition, while compounds lacking an α-cyano group (e.g., cismethrin, permethrin, bifenthrin) induce an increase in acoustic-evoked startle response amplitude, cyano compounds (e.g., deltamethrin, cypermethrin, cyfluthrin) produce the opposite outcome. Other endpoints (e.g., tremor intensity, sensory response) have been only occasionally explored. A synthesis of the neurobehavioral evidence relating to the action of pyrethroids indicates that some differences in the experimental findings across compounds are also present in the low-effective dose range. For risk assessment purposes, a strategy that takes into account data from an array of neurobehavioral endpoints is needed to capture the heterogeneity of pyrethroid-induced adverse effects and accurately inform policy decisions.
ISSN:0892-0362
1872-9738
DOI:10.1016/j.ntt.2007.10.005