The Benchmark Dose Method—Review of Available Models, and Recommendations for Application in Health Risk Assessment

Filipsson, Agneta Falk; Sand, Salomon; Nilsson, John; Victorin, Katarina

doi:10.1080/10408440390242360

Cited by 96 publications

(79 citation statements)

References 45 publications

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“…While the NOEC and ECx are still the most often used measures for ecotoxicological purposes, the benchmark dose (BMD) is frequently used in human toxicology and health risk assessment (Allen et al, 1994;Filipsson et al, 2003). However, this…”

Section: Ntc Vs Other Approachesmentioning

confidence: 99%

A validated algorithm for selecting non-toxic chemical concentrations_suppl1

Stadnicka-Michalak

2017

ALTEX

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Section: Ntc Vs Other Approachesmentioning

confidence: 99%

A validated algorithm for selecting non-toxic chemical concentrations_suppl1

Stadnicka-Michalak

2017

ALTEX

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“…A variety of models are in use (Krewski and The benchmark dose method (Crump 1984, Filipsson et al 2003, Parham and Portier 2005 consists of estimating a lower confidence limit for the dose associated with a specified increase  in adverse response (i.e., increased risk) above the background level. In practice, the specified increase is typically 1% to 10% for cancer quantal response models (Filipsson et al 2003, Parham andPortier 2005).…”

Section: Dose-response Models and Risk Estimatesmentioning

confidence: 99%

“…The increase in risk above background for a quantal response is quantified as "extra risk" or "additional risk" (Filipsson et al 2003). These quantities are defined below.…”

Section: Dose-response Models and Risk Estimatesmentioning

confidence: 99%

“…This is explicitly presented in Kopylev and Sinha (2011). space, note that all we need to compute are the restricted MLEs of 1  , 2  and 3  , subject to their being non-negative. This is derived as follows.…”

Section: Three Points On the Boundariesmentioning

confidence: 99%

“…We should note that for statistical inference about ( *) ER d and BMD which involve the parameters 1  and 2  , all we would need is the asymptotic joint distribution of the relevant MLEs. Using Prop.…”

Section: Applications Of General Theory To Multistage Weibull Modelsmentioning

confidence: 99%

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Noncancer Risk Assessment: Principles and Practice in Environmental and Occupational Settings

Pecquet,

Haber

2023

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The scientific process of risk assessment aims to define hazards associated with human exposure to chemicals. This chapter focuses primarily on the first two steps of the risk assessment process for noncancer endpoints, or more broadly, for modes of action not involving interaction with DNA. Hazard characterization consists of a systematic evaluation of available data to identify toxicologically relevant adverse outcomes, the associated mode of action, and evaluation of human relevance of the effects. Data quality and the overall weight of evidence are also evaluated. We summarize available technologies for dose–response assessment to define the critical effect and to extrapolate effect levels to human exposure scenarios and exposure durations, and we discuss methods for addressing uncertainties. Methods for evaluating data–poor chemicals or conducting screening assessments are also reviewed. Finally, we discuss how to interpret the dose–response information in the context of specific exposure data. Although this chapter focuses on the methods for deriving risk values from in vivo studies, we also address the use of data from the rapidly evolving field of new approach methodologies (including in vitro methods such as high‐throughput transcriptomics and in silico approaches such as modeling of structure–activity relationships). Ultimately, these new methodologies will foster a better understanding of how chemical exposures may cause toxicity, allow for more rapid assessment of chemicals, and support a reduction in the need for future toxicity testing in animals.

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The Benchmark Dose Method—Review of Available Models, and Recommendations for Application in Health Risk Assessment

Cited by 96 publications

References 45 publications

A validated algorithm for selecting non-toxic chemical concentrations_suppl1

A validated algorithm for selecting non-toxic chemical concentrations_suppl1

Some New Aspects of Statistical Inference for Multistage Dose-Response Models with Applications

Noncancer Risk Assessment: Principles and Practice in Environmental and Occupational Settings

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