Previous studies have shown that predatory odors are a potent anxiogenic st
imulus for rodents, yet the ability of benzodiazepines to block odor-induce
d anxiety remains uncertain. The present study reevaluated this issue using
a novel apparatus that, in contrast to previous studies, allowed rats to h
ide from the odor in a small wooden "hide box" placed within a larger arena
. The odor stimulus used was a fabric cat collar that had been worn by a do
mestic cat for a period of 3 weeks. The experiment was divided into three p
hases on successive days: 1) habituation, where all rats were placed in the
apparatus without cat odor present; 2) conditioning, where rats were prese
nted with the cat odor in the apparatus; and 3) test, where rats previously
exposed to the odor were tested for a conditioned avoidance response in th
e absence of the odor. Results showed that rats exposed to the cat collar d
isplayed a robust avoidance response, spending about 70% of a 20-min sessio
n in the hide box compared to 25% in control rats. This avoidance response
was completely reversed in rats given a low dose (0.375 mg/kg) of midazolam
. During the test phase, rats exposed to the cat odor on the previous day s
howed elevated levels of hiding when returned to the test apparatus without
the cat odor present. This conditioned avoidance was significantly attenua
ted in rats who had received midazolam (0.375 mg/kg) during cat odor exposu
re but not in rats given the same dose during the test. These results show
that low-dose midazolam is an effective anxiolytic agent in rats during exp
osure to predatory odor. (C) 1999 Elsevier Science Inc.