The physiological consequences of drinking ethanol differ among men and wom
en; however, the biological basis of this gender difference is unknown. Our
study characterized sex-related blood ethanol concentration (BEC) 60 min p
ostethanol administration and ethanol elimination rates in male and female
monkeys and across the phases of the menstrual cycle. Subjects were male (n
= 4) and female (n = 4) cynomolgus monkeys (Macaca fascicularis) with a hi
story of ethanol exposure and maintained at a lean body weight by food rest
riction. On three separate occasions, each monkey was administered 1.0 g/kg
ethanol intragastrically and blood samples (20 mu l) were collected every
60 min over a 5-hr period. For females, three phases of the menstrual cycle
were determined by the presence of menses and plasma progesterone levels.
There was no effect of menstrual cycle on mean 60 min BECs or mean rates of
elimination. Mean BECs 60 min after 1.0 g/kg ethanol were: males = 86 mg/d
l (+/- 2; n = 4) and females = 82 mg/dl (+/- 5; n = 4). There was no effect
of sex on the highest BEC measured, which occurred at the 60 min time poin
t in all subjects: Female monkeys did have faster average rates of ethanol
elimination [34 +/- 2 (mg/dl)/hr] compared with males [23 +/- 1 (mg/dl)/hr]
. The sex differences in metabolism of ethanol found with the macaque monke
y model correlates well with human subject studies and suggests this is an
appropriate model to further explore gender differences in response to etha
nol.