Lung cancer mortality in nickel/chromium platers, 1946-95.

Electrical and electronic waste (e-waste) contains multiple toxic metals. However, there is currently a lack of exposure data for metals on workers in formal recycling plants. The objective of this study was to evaluate workers' exposure to metals, using biomarkers of exposure in combination with monitoring of personal air exposure. We assessed exposure to 20 potentially toxic metals among 55 recycling workers and 10 office workers at three formal e-waste recycling plants in Sweden. Workers at two of the plants were followed-up after 6 months. We collected the inhalable fraction and OFC (37-mm) fraction of particles, using personal samplers, as well as spot samples of blood and urine. We measured metal concentrations in whole blood, plasma, urine, and air filters using inductively coupled plasma-mass spectrometry following acid digestion. The air sampling indicated greater airborne exposure, 10 to 30 times higher, to most metals among the recycling workers handling e-waste than among the office workers. The exposure biomarkers showed significantly higher concentrations of chromium, cobalt, indium, lead, and mercury in blood, urine, and/or plasma of the recycling workers, compared with the office workers. Concentrations of antimony, indium, lead, mercury, and vanadium showed close to linear associations between the inhalable particle fraction and blood, plasma, or urine. In conclusion, our study of formal e-waste recycling shows that workers performing recycling tasks are exposed to multiple toxic metals.

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Deposition of nickel, chromium, and cobalt on the skin in some occupations – assessment by acid wipe sampling

Lidén

et al. 2008

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Sensitivity and specificity of the nickel spot (dimethylglyoxime) test

et al. 2010

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Assessment of skin exposure to nickel, chromium and cobalt by acid wipe sampling and ICP‐MS

Lidén

Skare²,

Lind³

et al. 2006

Contact Dermatitis

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There is a great need to accurately assess skin exposure to contact allergens. We have developed a technique for assessment of skin exposure to nickel, chromium and cobalt using acid wipe sampling by cellulose wipes with 1% nitric acid. Chemical analysis was performed by inductively coupled plasma mass spectrometry (ICP-MS). The recovery of nickel, chromium and cobalt from arms and palms was 93%. The analytical result is expressed in terms of mass per unit area (microg/cm(2)). The developed acid wipe sampling technique is suitable for determination of nickel, chromium and cobalt deposited on the skin. The technique may be used in workplace studies, in studies of individuals in the general population, in dermatitis patients, in identification of risk groups, as well as in developing preventive strategies and in follow-up after intervention.

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Release of nickel from coins and deposition onto skin from coin handling – comparing euro coins and SEK

2008

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Lizbet Skare

Formal recycling of e-waste leads to increased exposure to toxic metals: An occupational exposure study from Sweden

Deposition of nickel, chromium, and cobalt on the skin in some occupations – assessment by acid wipe sampling

Sensitivity and specificity of the nickel spot (dimethylglyoxime) test

Assessment of skin exposure to nickel, chromium and cobalt by acid wipe sampling and ICP‐MS

Release of nickel from coins and deposition onto skin from coin handling – comparing euro coins and SEK

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