Epidemiological survey among workers exposed to manganese: effects on lung, central nervous system, and some biological indices

H Roels, R Lauwerys, JP Buchet… - American journal of …, 1987 - Wiley Online Library
H Roels, R Lauwerys, JP Buchet, P Genet, MJ Sarhan, I Hanotiau, M de Fays, A Bernard
American journal of industrial medicine, 1987Wiley Online Library
A cross‐sectional epidemiological study was carried out among 141 male subjects exposed
to inorganic manganese (Mn) in a Mn oxide and salt producing plant (mean age 34.3 years;
duration of exposure, mean 7.1 years, range 1–19 years). The results were compared with
those of a matched control group of 104 subjects. The intensity of Mn exposure was
moderate as reflected by the airborne Mn levels and the concentrations of Mn in blood (Mn‐
B) and in urine (Mn‐U). A significantly higher prevalence of cough in cold season, dyspnea …
Abstract
A cross‐sectional epidemiological study was carried out among 141 male subjects exposed to inorganic manganese (Mn) in a Mn oxide and salt producing plant (mean age 34.3 years; duration of exposure, mean 7.1 years, range 1–19 years). The results were compared with those of a matched control group of 104 subjects. The intensity of Mn exposure was moderate as reflected by the airborne Mn levels and the concentrations of Mn in blood (Mn‐B) and in urine (Mn‐U). A significantly higher prevalence of cough in cold season, dyspnea during exercise, and recent episodes of acute bronchitis was found in the Mn group. Lung ventilatory parameters (forced vital capacity, FVC; forced expiratory volume in one second, FEV1; peak expiratory flow rate, PEFR) were only mildly altered in the Mn group (smokers) and the intensity and the prevalence of these changes were not related to Mn‐B, Mn‐U, or duration of exposure. There was no synergistic effect between Mn exposure and smoking on the spirometric parameters. Except for a few nonspecific symptoms (fatigue, tinnitus, trembling of fingers, increased irritability), the prevalence of the other subjective complaints did not differ significantly between the control and Mn groups. Psychomotor tests were more sensitive than the standardized neurological examination for the early detection of adverse effects of Mn on the central nervous system (CNS). Significant alterations were found in simple reaction time (visual), audioverbal short‐term memory capacity, and hand tremor (eye‐hand coordination, hand steadiness). A slight increase in the number of circulating neutrophils and in the values of several serum parameters (ie, calcium, ceruloplasmin, copper, and ferritin) was also found in the Mn group. There were no clear‐cut dose–response relationships between Mn‐U or duration of Mn exposure and the prevalence of abnormal CNS or biological findings. The prevalences of disturbances in hand tremor and that of increased levels of serum calcium were related to Mn‐B. The response to the eye‐hand coordination test suggests the existence of a Mn‐B threshold at about 1 μg Mn/100 ml of whole blood. This study demonstrates that a time‐weighted average exposure to airborne Mn dust (total dust) of about 1 mg/m3 for less than 20 years may present preclinical signs of intoxication.
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