Effect of surface mechanical attrition treatment on biodegradable Mg–1Ca alloy

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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A spot test for detection of cobalt release – early experience and findings

Thyssen

Menné

Johansen

et al. 2010

Contact Dermatitis

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Levels of brominated flame retardants in blood in relation to levels in household air and dust

Karlsson

Julander

Bavel

et al. 2007

Environment International

183

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Cobalt‐containing alloys and their ability to release cobalt and cause dermatitis

Julander

Hindsén

Skare³

et al. 2009

Contact Dermatitis

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Polybrominated diphenyl ethers—plasma levels and thyroid status of workers at an electronic recycling facility

Julander

Karlsson

Hagström

et al. 2005

Int Arch Occup Environ Health

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New UK nickel‐plated steel coins constitute an increased allergy and eczema risk

et al. 2013

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Nickel-plated coins deposit higher levels of nickel onto skin than cupro-nickel coins, and hence pose an increased allergy risk. One-week release in artificial sweat is not suitable for determining the risk of handling items with high nickel release that come into short, repeated contact with the skin. The nickel skin dose is recommended for risk assessment. UK citizens are now, because of this change in coinage, unnecessarily exposed to higher levels of nickel on the skin. This is of public health concern.

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Cobalt, nickel and chromium release from dental tools and alloys

et al. 2013

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Nickel deposition and penetration into the stratum corneum after short metallic nickel contact: An experimental study

et al. 2018

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Background: Knowledge about the skin deposition and penetration of nickel into the stratum corneum (SC) after short contact with metallic items is limited.Objective: To quantify nickel skin deposition and penetration into the SC after short contact with metallic nickel.Methods: Sixteen nickel-allergic participants and 10 controls were exposed to 3 pure nickel discs and 1 aluminium disc on each volar forearm for 3 × 10 minutes. Before exposure, 1 forearm was irritated with 0.5% sodium lauryl sulfate under 24-hour occlusion. Immediately, as well as 24 and 72 hours after metallic disc exposure, outer SC layers were removed with adhesive tapes and the nickel content was measured.Results: Nickel deposition and SC penetration capable of eliciting allergic nickel dermatitis were found immediately and after 24 hours. Significantly higher nickel amounts were found on normal skin and in the SC of nickel-allergic participants than in controls both immediately and after 24 hours, and on irritated skin immediately after exposure.Conclusions: Nickel deposition and SC penetration is considerable after nickel skin exposure of 3 × 10 minutes. Combined with the allergic responses resulting from the same exposures reported previously, this study highlights that short skin exposure to nickel-releasing items may cause allergic nickel dermatitis. K E Y W O R D Scontact allergy, nickel allergy, nickel penetration, nickel release, nickel skin dose, stratum corneum, tape stripping

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Anneli Julander

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

A spot test for detection of cobalt release – early experience and findings

Levels of brominated flame retardants in blood in relation to levels in household air and dust

Cobalt‐containing alloys and their ability to release cobalt and cause dermatitis

Polybrominated diphenyl ethers—plasma levels and thyroid status of workers at an electronic recycling facility

New UK nickel‐plated steel coins constitute an increased allergy and eczema risk

Cobalt, nickel and chromium release from dental tools and alloys

Nickel deposition and penetration into the stratum corneum after short metallic nickel contact: An experimental study

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