M. Zavalic et al., QUALITATIVE COLOR-VISION IMPAIRMENT IN TOLUENE-EXPOSED WORKERS, International archives of occupational and environmental health, 71(3), 1998, pp. 194-200
Objective: The aim of this study was to evaluate whether toluene, like
many other organic solvents and solvent mixtures. could impair color
vision. Subjects and methods: We investigated color vision impairment
in three groups of workers, two groups occupationally exposed to tolue
ne and a nonexposed group. The first exposed group, group E-1, compris
ed 41 workers (median value of toluene in air 35.00 ppm, range 11.3-49
.3 ppm) and the second exposed group, group E-2, comprised 32 subjects
(median value of toluene in air 156.00 ppm. range 66.0-250.0 ppm). Th
e nonexposed group, group NE, comprised 83 subjects. Color vision was
evaluated by the Lanthony D-15 desaturated test according to Verriest'
s classification: type I, loss in the red-green range; type II, loss i
n the blue-yellow and red-green ranges, and type III, loss in the blue
-yellow range. Subjects were classified as dyschromates if specific ac
quired loss was determined in at least one eye. In both exposed groups
: exposure was evaluated by measurement of the concentration of toluen
e in the ambient air and in the blood. In group E-2, level of hippuric
acid and orthocresol in urine after the work shift were also determin
ed. The Mann-Whitney U-test: t-test, chi(2)-test, and Spearman's rank
correlation and multiple regression analysis were used for statistical
analysis. Results: Type III dyschromatopsia was detected in all group
s examined: 26.6% of the workers in group NE, 31.7% of those in group
E-1, and 50% of those in group E-2. As many as 15.6% of the workers in
group E-2, 4.8% of those in group E-1, and only 1.2% of those in grou
p NE had type II dyschromatopsia. A statistically significant differen
ce in the prevalence of total dyschromatopsia (type III + type II) was
established among the three examined groups together (chi(2) = 14.13;
df = 2; P < 0.01), between group E-2 and group E-1 (chi(2) = 4.96; P
< 0.05), and between group E-2 and group NE (chi(2) = 12.50; P < 0.005
), whereas no significant difference was found between groups Ei and N
E. Type III dyschromatopsia was significantly correlated with age in g
roup NE (P < 0.01) and in group E-1 (P < 0.005). In group E-2, both ty
pe II (P < 0.05) and type III dyschromatopsia correlated with toluene
in ambient air and with the duration of exposure to toluene (both P <
0.005). In group E-2, total dyschromatopsia correlated significantly w
ith toluene in ambient air and in blood (both P < 0.05) as well as wit
h hippuric acid in urine after the work shift (P < 0.001). Conclusion:
This study suggests that toluene can impair color vision.