Assessment of pyrethroid-induced paraesthesias: comparison of animal model and human data

Abstract

The quantification of upper respiratory tract (URT) sensory irritation is considered to be important in rodent inhalation studies, since it may be also used as an endpoint mimicking trigeminal paraesthesias observed in humans. URT sensory irritation is known to be associated with rodent-specific secondary physiological effects such as depression of body temperature and changes in heart rate. In acutely exposed rats, these endpoints have been addressed by telemetrical measurements. The analysis of the ventilation pattern during acute inhalation studies of rats exposed to the α-cyano-pyrethroid cyfluthrin demonstrates that concentration-dependent URT sensory irritation was associated with a hypothermic response. The no-effect levels (NO(A)EL) based on the URT sensory irritation endpoint following acute inhalation exposure for 1 h and following a repeated 4-week or 13-week inhalation exposure for 6 h/day on 5 days/week were virtually identical (≈0.1 mg/m 3 air). An additional objective was to examine whether human volunteers experience comparable signs when acutely exposed for 1 h to airborne concentrations slightly above or in the range of the NO(A)EL. In human volunteers there were no clinically significant or pyrethroid related abnormalities in vital signs, ECG’s or in any clinical laboratory tests after either exposure, although transient effects related to URT (sensory) irritation were reported. In conclusion, an initial actual exposure concentration of ≈0.1 mg cyfluthrin/m 3 air appears to be in the range of the sensory irritant threshold concentration for both rats and humans. Thus, with regard to physiological afferent portal-of-entry effects, the interspecies response was consistent.