ResultsPerformance of the HPLC dete

Results
Performance of the HPLC determination
and storage of urine samples
When urine samples (5 each) from non exposed people
were mixed with an equal volume of toluene-spiked acetonitrile (such that the final toluene concentrations
were 0.010, 0.048, 0.091, and 0.333 ll toluene/l urine acetonitrile
mixture) and analyzed for toluene, the peak
areas were proportional to the amounts of toluene
added and the between-run coefficients of variation (i.e.,
the standard deviation/the mean in percent) were 5.4%,
3.9%, 3.7%, and 3.8%, respectively. The range of linear
proportion extended up to the maximal toluene concentration
tested, i.e., 0.666 ll toluene/l urine. The detection
limit was 2 lg/l when the peak/noise ratio of 2
was taken.
In the second experiment, acetonitrile was spiked
with toluene at 0.5 or 1.0 ll/l, and the spiked acetonitrile
preparations were mixed with an equal volume of either
water or urine samples from 10 non exposed subjects.
The average recovery was 100.6% (99.1% and 102.1%
at the former and the latter toluene concentration, respectively;
10 determinations each), and the mean coefficient of between-run variation was 3.4% (3.7% and
3.1%, respectively).
For examination of the stability of toluene concentration
during storage, toluene was dissolved in
acetonitrile and the solution (1 ml each) was mixed
with an equal volume of urine from a non exposed
subject in a 2.2-ml bottle to give final toluene concentrations
(i.e., the concentrations in the acetonitrile urine
mixture) of 0.048, 0.091, and 0.333 ll/l, respectively.
The bottles were stored in a refrigerator at 4 °C.
The determination of three samples each was carried
out on days 0, 1, 2, 4, and 7 of storage. Regression
analysis showed that the slopes were close to zero,
suggesting that there was essentially no time-dependent
reduction in toluene concentrations during 1 week of
storage (Fig. 2).