Health-based nanomaterial guidance value (HNGV) for occupational exposure to spheroidal biodurable engineered nanomaterials of relatively low substance-specific toxicity
(2026) In NanoImpact 42.- Abstract
Exposure to engineered nanomaterials (ENMs) at the workplace can adversely affect human health via inhalation. Occupational exposure limits (OELs) for specific ENMs remain scarce due to a lack of nano-specific data and consensus on the most appropriate dose metric for exposure assessment. In 2022, recommendations were provided on how to derive Health-based Nano Reference Values (HNRVs) for different categories of ENMs. Here, we have updated these recommendations based on new insights and information and changed the name into Health-based Nanomaterial Guidance Values (HNGVs) to distinguish from existing pragmatic Nano Reference Values. Using expert consultation, we derived a general HNGV for spheroidal biodurable ENMs with relatively low... (More)
Exposure to engineered nanomaterials (ENMs) at the workplace can adversely affect human health via inhalation. Occupational exposure limits (OELs) for specific ENMs remain scarce due to a lack of nano-specific data and consensus on the most appropriate dose metric for exposure assessment. In 2022, recommendations were provided on how to derive Health-based Nano Reference Values (HNRVs) for different categories of ENMs. Here, we have updated these recommendations based on new insights and information and changed the name into Health-based Nanomaterial Guidance Values (HNGVs) to distinguish from existing pragmatic Nano Reference Values. Using expert consultation, we derived a general HNGV for spheroidal biodurable ENMs with relatively low substance-specific toxicity. Benchmark ENMs were selected based on criteria such as low dissolution rate in physiologically relevant media and absence of substance-specific toxicity. For these ENMs, several human health endpoints were evaluated and pulmonary inflammation was selected as the critical effect. Persistent inflammation is considered an important driver for chronic adverse effects and keeping exposures below levels causing neutrophil influx is expected to protect against effects such as ENM-induced lung fibrosis and lung cancer. Subsequently, no-observed-adverse-effect-concentrations (NOAECs) or lowest-observed-adverse-effect-concentrations (LOAECs) were derived from high quality in vivo studies to provide a range of Derived No Effect Levels (DNELs). Based on these DNELs, we recommend an HNGV value of 4 μg/m3 averaged over an 8-h workshift. This HNGV can be practically assessed at the workplace for ENMs that have a clear chemical signature such as metal-based ENMs.
(Less)
- author
- organization
- publishing date
- 2026-04
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Biodurable nanoparticles, Engineered nanomaterials, Health-based nanomaterial guidance values, HNGV, Nano reference values, HNRV, Occupational exposure limit, Poorly soluble
- in
- NanoImpact
- volume
- 42
- article number
- 100621
- publisher
- Elsevier
- external identifiers
-
- scopus:105033228204
- pmid:41846036
- ISSN
- 2452-0748
- DOI
- 10.1016/j.impact.2026.100621
- language
- English
- LU publication?
- yes
- id
- 72230e46-e603-42a2-aea1-19bde0604544
- date added to LUP
- 2026-04-24 11:46:37
- date last changed
- 2026-06-19 15:56:23
@article{72230e46-e603-42a2-aea1-19bde0604544,
abstract = {{<p>Exposure to engineered nanomaterials (ENMs) at the workplace can adversely affect human health via inhalation. Occupational exposure limits (OELs) for specific ENMs remain scarce due to a lack of nano-specific data and consensus on the most appropriate dose metric for exposure assessment. In 2022, recommendations were provided on how to derive Health-based Nano Reference Values (HNRVs) for different categories of ENMs. Here, we have updated these recommendations based on new insights and information and changed the name into Health-based Nanomaterial Guidance Values (HNGVs) to distinguish from existing pragmatic Nano Reference Values. Using expert consultation, we derived a general HNGV for spheroidal biodurable ENMs with relatively low substance-specific toxicity. Benchmark ENMs were selected based on criteria such as low dissolution rate in physiologically relevant media and absence of substance-specific toxicity. For these ENMs, several human health endpoints were evaluated and pulmonary inflammation was selected as the critical effect. Persistent inflammation is considered an important driver for chronic adverse effects and keeping exposures below levels causing neutrophil influx is expected to protect against effects such as ENM-induced lung fibrosis and lung cancer. Subsequently, no-observed-adverse-effect-concentrations (NOAECs) or lowest-observed-adverse-effect-concentrations (LOAECs) were derived from high quality in vivo studies to provide a range of Derived No Effect Levels (DNELs). Based on these DNELs, we recommend an HNGV value of 4 μg/m<sup>3</sup> averaged over an 8-h workshift. This HNGV can be practically assessed at the workplace for ENMs that have a clear chemical signature such as metal-based ENMs.</p>}},
author = {{van Kesteren, Petra C.E. and van Berlo, Damiën and Bard, Delphine and Butler, Owen and Dekkers, Susan and Hadrup, Niels and Lovén, Karin and Riediker, Michael and Schins, Roel P.F. and van Thriel, Christoph and Vogel, Ulla and Gosens, Ilse}},
issn = {{2452-0748}},
keywords = {{Biodurable nanoparticles; Engineered nanomaterials; Health-based nanomaterial guidance values, HNGV; Nano reference values, HNRV; Occupational exposure limit; Poorly soluble}},
language = {{eng}},
publisher = {{Elsevier}},
series = {{NanoImpact}},
title = {{Health-based nanomaterial guidance value (HNGV) for occupational exposure to spheroidal biodurable engineered nanomaterials of relatively low substance-specific toxicity}},
url = {{http://dx.doi.org/10.1016/j.impact.2026.100621}},
doi = {{10.1016/j.impact.2026.100621}},
volume = {{42}},
year = {{2026}},
}