Developmental Toxicity Evaluation of Inhaled Methyl Isobutyl Ketone in Fischer 344 Rats and CD-1 Mice

Developmental Toxicity Evaluation of Inhaled Methyl IsobutylKetone in Fischer 344 Rats and CD-1 Mice. Tyl, R. W., FRANCE,K. A., FISHER, L. C., PRITTS, I. M., TYLER, T. R., PHILLIPS,R. D., and MORAN, E. J. (1987). Fundam. Appl. Toxicol. 8, 310–327.Pregnant Fischer 344 rats and CD-1 mice were exposed to methylisobutyl ketone vapor (CAS No. 108-10-1) by inhalation on GestationalDays 6 through 15 at concentrations of 0, 300, 1000, or 3000ppm (mean analytical values of 0, 305, 1012, and 2997 ppm, respectively).The animals were sacrificed on Gestational Day 21 (rats) or18 (mice), and live fetuses were examined for external, visceral,and skeletal alterations. In rats, exposure to 3000 ppm resultedin maternal toxicity expressed as clinical signs, decreasedbody weight and body weight gain, increased relative kidneyweight, and decreased food consumption, and in fetotoxicityexpressed as reduced fetal body weight per litter and reductionsin skeletal ossification. In mice, exposure to 3000 ppm resultedin maternal toxicity expressed as exposure-related increasesin deaths (12.0%, 3/25 dams), clinical signs, and increasedabsolute and relative liver weight, and in fetotoxicity expressedas increased incidence of dead fetuses, reduced fetal body weightper litter, and reductions in skeletal ossification. No treatment-relatedincreases in embryotoxicity or fetal malformations were seenin either species at any exposure concentration tested. Therewas no evidence of treatment-related maternal, embryo, or fetaltoxicity (including malformations) at 1000 or 300 ppm in eitherSpecies.