2017
DOI: 10.1016/j.yrtph.2017.08.003
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A quantitative framework to group nanoscale and microscale particles by hazard potency to derive occupational exposure limits: Proof of concept evaluation

Abstract: The large and rapidly growing number of engineered nanomaterials (ENMs) presents a challenge to assessing the potential occupational health risks. An initial database of 25 rodent studies including 1929 animals across various experimental designs and material types was constructed to identify materials that are similar with respect to their potency in eliciting neutrophilic pulmonary inflammation, a response relevant to workers. Doses were normalized across rodent species, strain, and sex as the estimated depo… Show more

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Cited by 24 publications
(27 citation statements)
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References 82 publications
(106 reference statements)
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“…In current analyses of acute pulmonary inflammation, a set of 16 microscale and nanoscale particles in a training dataset have been grouped into four potency clusters, including three groups for nanoscale particles, which are 4-175 times more potent than a fourth group containing a microscale reference particle. These analyses illustrate proof of concept for grouping particles by pulmonary hazard potency [Drew et al 2017].…”
Section: C72 Hazard Classification/ Clusteringmentioning
confidence: 68%
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“…In current analyses of acute pulmonary inflammation, a set of 16 microscale and nanoscale particles in a training dataset have been grouped into four potency clusters, including three groups for nanoscale particles, which are 4-175 times more potent than a fourth group containing a microscale reference particle. These analyses illustrate proof of concept for grouping particles by pulmonary hazard potency [Drew et al 2017].…”
Section: C72 Hazard Classification/ Clusteringmentioning
confidence: 68%
“…Given the large and growing number of engineered nanomaterials (ENMs) with limited data, as for other emerging and existing substances produced or used in the workplace, alternative test strategies (i.e., toxicological approaches other than primary animal testing) such as high-throughput screening and in vitro exposures may help to fill the gaps by providing data that could be used in validated hazard and risk assessment models [Drew et al 2017;Kuempel et al 2012].…”
Section: C61 Overviewmentioning
confidence: 99%
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