Bd. Astill et al., PRECHRONIC TOXICITY STUDIES ON 2-ETHYLHEXANOL IN F334 RATS AND B6C3F1MICE, Fundamental and applied toxicology, 29(1), 1996, pp. 31-39
Data on the subchronic toxicity of 2-ethylhexanol (2EH) were required
to establish the dose vehicle and dose levels for oncogenicity studies
. In preliminary studies 2EH was given subacutely (11 days) to male an
d female Fischer 344 rats and B6C3F1 mice as an aqueous emulsion by or
al gavage (0, 100, 330, 1000, and 1500 mg/kg/day). Clinical observatio
ns were made, body weights, food consumption, clinical chemistries, he
matologies, and selected organ weights were measured, and gross and mi
cropathologies were performed. Target organs were the central nervous
system, liver, forestomach, spleen, thymus, and kidney in rats and the
central nervous system, liver, and forestomach in mice. 2EH was then
administered by oral gavage to male and female F344 rats and B6C3F1 mi
ce as an aqueous emulsion (0, 25, 125, 250, and 500 mg/kg/day) for 13
weeks. At 500 mg/kg/day in the rat there was reduced body weight gain
(6% male, 7% female), increased relative liver (29% male, 15% female),
kidney (16% male, 6% female), stomach (11% male, 16% female), and tes
tes (6%) weights, and moderate gross and microscopic changes in the li
ver and forestomach. There were no behavioral effects or effects on th
e spleen or thymus. A no-effect level for target organ effects in the
rat was 125 mg of 2EH/kg/day. At 500 mg of 2EH/kg/day in the mouse the
only effects were increased relative stomach weights in males (13%) a
nd a low incidence of gross and microscopic findings in the forestomac
h (male and female) and liver (female). A no-effect level for target o
rgan effects in the mouse was 125 mg of 2EH/kg/day. 2EH was a peroxiso
me proliferator in the rat but not in the mouse at subchronic dose lev
els of 500 mg/kg/day. Dose levels in oncogenicity studies were set at
50 mg/kg/day for the absence of treatment-related effects in rats and
mice, and 500 and 750 mg/kg/day, respectively, in rats and mice as hig
h doses producing minimal toxicity without altering the life span. (C)
1996 Society of Toxicology