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Goede, H. (author), Kuijpers, E. (author), Krone, T. (author), le Feber, M. (author), Franken, R. (author), Fransman, W. (author), Duyzer, J. (author), Pronk, A. (author)
This commentary explores the use of high-resolution data from new, miniature sensors to enrich models that predict exposures to chemical substances in the workplace. To optimally apply these sensors, one can expect an increased need for new models that will facilitate the interpretation and extrapolation of the acquired time-resolved data. We...
article 2021
document
Franken, R.A. (author), Kasiotis, K.M. (author), Tsakirakis, A.N. (author), Chartzela, I. (author), Anastasiadou, P. (author), Fransman, W. (author), Gerritsen-Ebben, R.M. (author), Spaan, S. (author), Goede, H. (author), Machera, K. (author), Gerritsen-Ebben, R. (author)
For many work situations only insufficient exposure data are available to perform proper risk assessment. Because measuring worker exposure can be time consuming and resource intense, the availability of reliable exposure models is important when performing risk assessments. However, the development and improvement of exposure models are...
article 2020
document
Goede, H.A. (author), McNally, K. (author), Gorce, J.P. (author), Marquart, H. (author), Warren, N.D. (author), Fransman, W. (author), Tischer, M. (author), Schinkel, J. (author)
This article describes the development of a mechanistic model for underpinning the dermal Advanced REACH Tool (dART), an extension of the existing ART model and its software platform. It was developed for hand exposure to low volatile liquids (vapour pressure ≤ 10 Pa at 20°C) including solids-in-liquid products. The model is based on an existing...
article 2019
document
Marquart, H. (author), Franken, R. (author), Goede, H. (author), Fransman, W. (author), Schinkel, J. (author)
The ECETOC TRA model (presently version 3.1) is often used to estimate worker inhalation and dermal exposure in regulatory risk assessment. The dermal model in ECETOC TRA has not yet been validated by comparison with independent measured exposure levels. This was the goal of the present study. Measured exposure levels and relevant contextual...
article 2017
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Schinkel, J. (author), Richie, P. (author), Goede, H. (author), Fransman, W. (author), van Tongeren, M. (author), Cherrie, J.W. (author), Tielemans, E. (author), Kromhout, H. (author), Warren, N. (author)
This article describes the structure, functionalities, and content of the Advanced REACH Tool (ART) exposure database (version 1.5). The incorporation of the exposure database into ART allows users who do not have their own measurement data for their exposure scenario, to update the exposure estimates produced by the mechanistic model using...
article 2013
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Marquart, H. (author), Schneider, T. (author), Goede, H. (author), Tischer, M. (author), Schinkel, J. (author), Warren, N. (author), Fransman, W. (author), Spaan, S. (author), van Tongeren, M. (author), Kromhout, H. (author), Tielemans, E. (author), Cherrie, J.W. (author), TNO Kwaliteit van Leven (author)
There is a large variety of activities in workplaces that can lead to emission of substances. Coding systems based on determinants of emission have so far not been developed. In this paper, a system of Activity Classes and Activity Subclasses is proposed for categorizing activities involving chemical use. Activity Classes share their so-called ...
article 2011
document
Fransman, W. (author), van Tongeren, M. (author), Cherrie, J.W. (author), Tischer, M. (author), Schneider, T. (author), Schinkel, J. (author), Kromhout, H. (author), Warren, N. (author), Goede, H. (author), Tielemans, E. (author)
This paper describes the development of the mechanistic model within a collaborative project, referred to as the Advanced REACH Tool (ART) project, to develop a tool to model inhalation exposure for workers sharing similar operational conditions across different industries and locations in Europe. The ART mechanistic model is based on a...
article 2011
document
Fransman, W. (author), Schinkel, J. (author), Meijster, T. (author), van Hemmen, J. (author), Tielemans, E. (author), Goede, H. (author), TNO Kwaliteit van Leven (author)
Objectives: This paper describes the development and evaluation of an evidence database on the effectiveness of risk management measures (RMMs) to control inhalation exposure. This database is referred to as Exposure Control Efficacy Library (ECEL). Methods: A comprehensive review of scientific journals in the occupational hygiene field was...
article 2008
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