Alteration of saliva and serum concentrations of manganese, copper, zinc, cadmium and lead among career welders.

Human saliva offers a unique noninvasive approach for populational study. Purposes of this study were to investigate the feasibility of using saliva manganese (Mn) concentration as a biomarker of Mn exposure among career welders and to study the variations of Mn, copper (Cu), zinc (Zn), cadmium (Cd), and lead (Pb) in saliva as affected by the welding profession. Forty-nine male welders, of whom 28 were in the low exposed group and 21 in the high exposed group, were recruited. Control subjects were 33 military soldiers without metal exposure. Ambient Mn levels in breathing zones were 0.01, 0.24 and 2.21mg/m(3) for control, low, and high exposed groups, respectively. Saliva samples were collected to quantify metals by inductive coupled plasma mass spectrometer (ICP-MS). Saliva concentrations of Mn and Cu were significantly higher in welders than in controls (p<0.01); the variation in saliva levels appeared likely to be associated with airborne Mn levels among study populations. Saliva levels of Zn were significantly lower in welders than in controls (p<0.05), while Cd and Pb levels in saliva were unchanged. Significant associations were observed between saliva and serum for Mn (r=0.575, p<0.05) and Cu (r=0.50, p<0.05). Moreover, saliva Mn concentrations were higher among welders with 5-10years of employment than those with less than 5years of employment. Linear regression analysis revealed a significant correlation between saliva Mn and Cu and between saliva Mn and Zn. Taken together, these data suggest that Mn concentrations in saliva appear reflective of welders' exposure to airborne Mn and their years of welding experience, respectively. Elevated Mn levels among welders may alter the homeostasis of Cu and Zn.

[1]  Wei Zheng,et al.  Occupational Exposure to Welding Fume among Welders: Alterations of Manganese, Iron, Zinc, Copper, and Lead in Body Fluids and the Oxidative Stress Status , 2004, Journal of occupational and environmental medicine.

[2]  Wei Zheng,et al.  Manganese toxicity upon overexposure , 2004, NMR in biomedicine.

[3]  Yueming Jiang,et al.  Brain magnetic resonance imaging and manganese concentrations in red blood cells of smelting workers: search for biomarkers of manganese exposure. , 2007, Neurotoxicology.

[4]  A. Barbeau,et al.  Role of manganese in dystonia. , 1976, Advances in neurology.

[5]  Tsuguyoshi Suzuki,et al.  Toxicology of metals , 1996 .

[6]  A. Beklemishev,et al.  Dynamic study of HBsAg and HBeAg in saliva samples from patients with hepatitis B infection: Diagnostic and epidemiological significance , 2000, Journal of medical virology.

[7]  Y. Hwang,et al.  Manganese induced parkinsonism: an outbreak due to an unrepaired ventilation control system in a ferromanganese smelter. , 1989, British journal of industrial medicine.

[8]  Hongyang Gao,et al.  Effective Treatment of Manganese-Induced Occupational Parkinsonism With p-Aminosalicylic Acid: A Case of 17-Year Follow-Up Study , 2006, Journal of occupational and environmental medicine.

[9]  T. Mexia,et al.  Author ' s personal copy , 2009 .

[10]  J. Jen,et al.  Facile detection of mitochondrial DNA mutations in tumors and bodily fluids. , 2000, Science.

[11]  J. Griffin,et al.  Textbook of Medical Physiology 4th Ed , 1971 .

[12]  W. Brown,et al.  Comparison of testing saliva and serum for detection of antibody to human immunodeficiency virus in Jamaica, West Indies. , 2000, Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology.

[13]  R. Nagler,et al.  Free radicals related effects and antioxidants in saliva and serum of adolescents with Type 1 diabetes mellitus. , 2006, Archives of oral biology.

[14]  J. Michael Textbook of Medical Physiology , 2005 .

[15]  R. Compton,et al.  The membrane free sonoelectroanalytical determination of trace levels of lead and cadmium in human saliva. , 2002, The Analyst.

[16]  Wei Zheng,et al.  Alteration of serum concentrations of manganese, iron, ferritin, and transferrin receptor following exposure to welding fumes among career welders. , 2005, Neurotoxicology.

[17]  A. Sanz-Medel,et al.  Reference values for trace and ultratrace elements in human serum determined by double-focusing ICP-MS , 2007, Biological Trace Element Research.

[18]  T. Soussi,et al.  Expression of p53 in oral squamous cell carcinoma is associated with the presence of IgG and IgA p53 autoantibodies in sera and saliva of the patients , 2000, The Journal of pathology.

[19]  A. Scheuhammer,et al.  The influence of manganese on the distribution of essential trace elements. I. Regional distribution of Mn, Na, K, Mg, Zn, Fe, and Cu in rat brain after chronic Mn exposure. , 1981, Toxicology and applied pharmacology.

[20]  C. Tanner,et al.  The role of environmental toxins in the etiology of Parkinson's disease , 1989, Trends in Neurosciences.