Evidence for effects on thermoregulation after acute oral exposure to type I and type II pyrethroids in infant rats

Most pyrethroid (PYR) insecticides may be classified either as type-I compounds, which produce whole body tremors and hyperthermia, or type-II compounds, which produce salivation, choreoathetosis, and hypothermia (i.e., producing T and CS neurobehavioral syndromes, respectively). This classification...

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Detalles Bibliográficos
Autores principales: Bardullas, U., Sosa-Holt, C.S., Pato, A.M., Nemirovsky, S.I., Wolansky, M.J.
Formato: JOUR
Materias:
Cumulative neurotoxicity
Infancy
Pyrethroids
Thermoregulation
bifenthrin
cypermethrin
insecticide
pyrethroid
acoustic evoked startle response
animal experiment
animal model
area under the curve
Article
body temperature
body temperature measurement
chemical structure
concentration response
controlled study
hypothermia
infant
male
maturation
motor activity
neurotoxicity
nonhuman
priority journal
rat
startle reflex
thermoregulation
animal
dose response
drug effects
newborn
oral drug administration
Sprague Dawley rat
Administration, Oral
Animals
Animals, Newborn
Body Temperature Regulation
Dose-Response Relationship, Drug
Insecticides
Male
Pyrethrins
Rats
Rats, Sprague-Dawley
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_08920362_v52_n_p1_Bardullas
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
Descripción
Sumario:Most pyrethroid (PYR) insecticides may be classified either as type-I compounds, which produce whole body tremors and hyperthermia, or type-II compounds, which produce salivation, choreoathetosis, and hypothermia (i.e., producing T and CS neurobehavioral syndromes, respectively). This classification is based on clinical observations in adult rats and mice after intracerebroventricular or intravascular administration of highly effective acute (bolus) doses. PYR neurotoxicity in infant animals is not characterized as much as in adult animals. Endpoints informing on vital determinants ofmammal'smaturation, such as body temperature may help recognizing age-related differences in susceptibility to PYRs. In this work, body temperature (Tb) was monitored at 30-min intervals after acute oral exposure to T-syndrome PYR bifenthrin (BIF), CS-syndrome PYR cypermethrin (CYPM), and a BIF?CYPM mixture in weanling rats by using a subcutaneous temperature monitoring system. In both single-compound assays, a time- and dose-related decline of TTb was the most evident impact on thermoregulation observed starting at ~2-3 h after dosing. Moreover, 15-18 mg/kg BIF induced a mild increase in TTb before the hypothermic action was apparent. The lowest effective dose for temperature perturbationwas 15 mg/kg for BIF and 10 mg/kg for CYPM, and moderate neurobehavioral alterations were evident at 12 and 10 mg/kg, respectively. When low effective doses of BIF and CYPM were co-administered mild behavioral effects and a transient increase in TTb (p=0.02) were observed at 1-2 h, and no Tb decline was apparent afterwards compared to control animals. Noteworthy, the hypothermic action of BIF in infant ratswas quite different from the hyperthermia consistently reported in studies usingmature animals. Our results suggest that body temperaturemonitoring may be useful as a complementary assessment to reveal qualitative age-specific pesticide effects in rats. © 2015 Elsevier Inc.

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