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Najjar, A. (author), Punt, A. (author), Wambaugh, J. (author), Paini, A. (author), Ellison, C. (author), Fragki, S. (author), Bianchi, E. (author), Zhang, F. (author), Westerhout, J. (author), Mueller, D. (author), Li, H. (author), Shi, Q. (author), Gant, T.W. (author), Botham, P. (author), Bars, R. (author), Piersma, A. (author), van Ravenzwaay, B. (author), Kramer, N.I. (author)With an increasing need to incorporate new approach methodologies (NAMs) in chemical risk assessment and the concomitant need to phase out animal testing, the interpretation of in vitro assay readouts for quantitative hazard characterisation becomes more important. Physiologically based kinetic (PBK) models, which simulate the fate of chemicals...article 2022
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Fragki, S. (author), Piersma, A.H. (author), Westerhout, J. (author), Kienhuis, A. (author), Kramer, N.I. (author), Zeilmaker, M.J. (author)Toxicology is moving away from animal testing towards in vitro tools to assess chemical safety. This new testing framework requires a quantitative method, i.e. kinetic modelling, which extrapolates effective concentrations in vitro to a bioequivalent human dose in vivo and which can be applied on “high throughput screening” of a wide variety of...article 2022
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Kuijpers, E. (author), van Wel, L. (author), Loh, M. (author), Galea, K.S. (author), Makris, K.C. (author), Stierum, R. (author), Fransman, W. (author), Pronk, A. (author)Introduction: Oil and gas workers have been shown to be at increased risk of chronic diseases including cancer, asthma, chronic obstructive pulmonary disease, and hearing loss, among others. Technological advances may be used to assess the external (e.g. personal sensors, smartphone apps and online platforms, exposure models) and internal...article 2021
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van de Pas, N.C.A. (author), Rullmann, J.A.C. (author), Woutersen, R.A. (author), van Ommen, B. (author), Rietjens, I.M.C.M. (author), de Graaf, A.A. (author)We used a previously developed physiologically based kinetic (PBK) model to analyze the effect of individual variations in metabolism and transport of cholesterol on pravastatin response. The PBK model is based on kinetic expressions for 21 reactions that interconnect eight different body cholesterol pools including plasma HDL and non-HDL...article 2014
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Strikwold, M. (author), Spenkelink, B. (author), Woutersen, R.A. (author), Rietjens, I.M.C.M. (author), Punt, A. (author)In vitro assays are often used for the hazard characterisation of compounds, but their application for quantitative risk assessment purposes is limited. This is because in vitro assays cannot provide a complete in vivo dose-response curve from which a point of departure (PoD) for risk assessment can be derived, like the no observed adverse...article 2013
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van de Pas, N.C.A. (author), Woutersen, R.A. (author), van Ommen, B. (author), Rietjens, I.M.C.M. (author), de Graaf, A.A. (author)Increased plasma cholesterol concentration is associated with increased risk of cardiovascular disease. This study describes the development, validation, and analysis of a physiologically based kinetic (PBK) model for the prediction of plasma cholesterol concentrations in humans. This model was directly adapted from a PBK model for mice by...article 2012
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Punt, A. (author), Schiffelers, M.J.W.A. (author), Jean Horbach, G. (author), van de Sandt, J.J.M. (author), Groothuis, G.M.M. (author), Rietjens, I.M.C.M. (author), Blaauboer, B.J. (author)The present paper aims at identifying strategies to increase the impact and applicability of alternative testing strategies in risk assessment. To this end, a quantitative and qualitative literature evaluation was performed on (a) current research efforts in the development of in vitro methods aiming for alternatives to animal testing, (b) the...article 2011