Relevance Weighting of Tier 1 Endocrine Screening Endpoints by Rank Order
Weight of evidence (WoE) approaches are recommended for interpreting various toxicological data, but few systematic and transparent procedures exist. A hypothesis‐based WoE framework was recently published focusing on the U.S. EPA's Tier 1 Endocrine Screening Battery (ESB) as an example. The fr...
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| Veröffentlicht in: | Birth defects research. Part B. Developmental and reproductive toxicology 2014-02, Vol.101 (1), p.90-113 |
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| container_title | Birth defects research. Part B. Developmental and reproductive toxicology |
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| creator | Borgert, Christopher J. Stuchal, Leah D. Mihaich, Ellen M. Becker, Richard A. Bentley, Karin S. Brausch, John M. Coady, Katie Geter, David R. Gordon, Elliot Guiney, Patrick D. Hess, Frederick Holmes, Catherine M. LeBaron, Matthew J. Levine, Steve Marty, Sue Mukhi, Sandeep Neal, Barbara H. Ortego, Lisa S. Saltmiras, David A. Snajdr, Suzanne Staveley, Jane Tobia, Abraham |
| description | Weight of evidence (WoE) approaches are recommended for interpreting various toxicological data, but few systematic and transparent procedures exist. A hypothesis‐based WoE framework was recently published focusing on the U.S. EPA's Tier 1 Endocrine Screening Battery (ESB) as an example. The framework recommends weighting each experimental endpoint according to its relevance for deciding eight hypotheses addressed by the ESB. Here we present detailed rationale for weighting the ESB endpoints according to three rank ordered categories and an interpretive process for using the rankings to reach WoE determinations. Rank 1 was assigned to in vivo endpoints that characterize the fundamental physiological actions for androgen, estrogen, and thyroid activities. Rank 1 endpoints are specific and sensitive for the hypothesis, interpretable without ancillary data, and rarely confounded by artifacts or nonspecific activity. Rank 2 endpoints are specific and interpretable for the hypothesis but less informative than Rank 1, often due to oversensitivity, inclusion of narrowly context‐dependent components of the hormonal system (e.g., in vitro endpoints), or confounding by nonspecific activity. Rank 3 endpoints are relevant for the hypothesis but only corroborative of Ranks 1 and 2 endpoints. Rank 3 includes many apical in vivo endpoints that can be affected by systemic toxicity and nonhormonal activity. Although these relevance weight rankings (WREL) necessarily involve professional judgment, their a priori derivation enhances transparency and renders WoE determinations amenable to methodological scrutiny according to basic scientific premises, characteristics that cannot be assured by processes in which the rationale for decisions is provided post hoc. |
| doi_str_mv | 10.1002/bdrb.21096 |
| format | Article |
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A hypothesis‐based WoE framework was recently published focusing on the U.S. EPA's Tier 1 Endocrine Screening Battery (ESB) as an example. The framework recommends weighting each experimental endpoint according to its relevance for deciding eight hypotheses addressed by the ESB. Here we present detailed rationale for weighting the ESB endpoints according to three rank ordered categories and an interpretive process for using the rankings to reach WoE determinations. Rank 1 was assigned to in vivo endpoints that characterize the fundamental physiological actions for androgen, estrogen, and thyroid activities. Rank 1 endpoints are specific and sensitive for the hypothesis, interpretable without ancillary data, and rarely confounded by artifacts or nonspecific activity. Rank 2 endpoints are specific and interpretable for the hypothesis but less informative than Rank 1, often due to oversensitivity, inclusion of narrowly context‐dependent components of the hormonal system (e.g., in vitro endpoints), or confounding by nonspecific activity. Rank 3 endpoints are relevant for the hypothesis but only corroborative of Ranks 1 and 2 endpoints. Rank 3 includes many apical in vivo endpoints that can be affected by systemic toxicity and nonhormonal activity. Although these relevance weight rankings (WREL) necessarily involve professional judgment, their a priori derivation enhances transparency and renders WoE determinations amenable to methodological scrutiny according to basic scientific premises, characteristics that cannot be assured by processes in which the rationale for decisions is provided post hoc.</description><identifier>ISSN: 1542-9733</identifier><identifier>EISSN: 1542-9741</identifier><identifier>DOI: 10.1002/bdrb.21096</identifier><identifier>PMID: 24510745</identifier><identifier>CODEN: BDRPCU</identifier><language>eng</language><publisher>United States: Blackwell Publishing Ltd</publisher><subject>Androgens - agonists ; Androgens - metabolism ; Animals ; endocrine disrupters ; Endocrine Disruptor Screening Program ; Endocrine Disruptors - analysis ; Endocrine Disruptors - toxicity ; endocrine screening ; Endpoint Determination ; Estrogens - agonists ; Estrogens - metabolism ; Hypotheses ; Models, Biological ; Rats ; regulatory toxicology ; Signal Transduction - drug effects ; Steroids - biosynthesis ; Thyroid Gland - drug effects ; Thyroid Gland - metabolism ; Toxicity Tests - methods ; weight of evidence</subject><ispartof>Birth defects research. 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Part B. Developmental and reproductive toxicology</title><addtitle>Birth Defects Res B</addtitle><description>Weight of evidence (WoE) approaches are recommended for interpreting various toxicological data, but few systematic and transparent procedures exist. A hypothesis‐based WoE framework was recently published focusing on the U.S. EPA's Tier 1 Endocrine Screening Battery (ESB) as an example. The framework recommends weighting each experimental endpoint according to its relevance for deciding eight hypotheses addressed by the ESB. Here we present detailed rationale for weighting the ESB endpoints according to three rank ordered categories and an interpretive process for using the rankings to reach WoE determinations. Rank 1 was assigned to in vivo endpoints that characterize the fundamental physiological actions for androgen, estrogen, and thyroid activities. Rank 1 endpoints are specific and sensitive for the hypothesis, interpretable without ancillary data, and rarely confounded by artifacts or nonspecific activity. Rank 2 endpoints are specific and interpretable for the hypothesis but less informative than Rank 1, often due to oversensitivity, inclusion of narrowly context‐dependent components of the hormonal system (e.g., in vitro endpoints), or confounding by nonspecific activity. Rank 3 endpoints are relevant for the hypothesis but only corroborative of Ranks 1 and 2 endpoints. Rank 3 includes many apical in vivo endpoints that can be affected by systemic toxicity and nonhormonal activity. 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Developmental and reproductive toxicology</jtitle><addtitle>Birth Defects Res B</addtitle><date>2014-02</date><risdate>2014</risdate><volume>101</volume><issue>1</issue><spage>90</spage><epage>113</epage><pages>90-113</pages><issn>1542-9733</issn><eissn>1542-9741</eissn><coden>BDRPCU</coden><abstract>Weight of evidence (WoE) approaches are recommended for interpreting various toxicological data, but few systematic and transparent procedures exist. A hypothesis‐based WoE framework was recently published focusing on the U.S. EPA's Tier 1 Endocrine Screening Battery (ESB) as an example. The framework recommends weighting each experimental endpoint according to its relevance for deciding eight hypotheses addressed by the ESB. Here we present detailed rationale for weighting the ESB endpoints according to three rank ordered categories and an interpretive process for using the rankings to reach WoE determinations. Rank 1 was assigned to in vivo endpoints that characterize the fundamental physiological actions for androgen, estrogen, and thyroid activities. Rank 1 endpoints are specific and sensitive for the hypothesis, interpretable without ancillary data, and rarely confounded by artifacts or nonspecific activity. Rank 2 endpoints are specific and interpretable for the hypothesis but less informative than Rank 1, often due to oversensitivity, inclusion of narrowly context‐dependent components of the hormonal system (e.g., in vitro endpoints), or confounding by nonspecific activity. Rank 3 endpoints are relevant for the hypothesis but only corroborative of Ranks 1 and 2 endpoints. Rank 3 includes many apical in vivo endpoints that can be affected by systemic toxicity and nonhormonal activity. Although these relevance weight rankings (WREL) necessarily involve professional judgment, their a priori derivation enhances transparency and renders WoE determinations amenable to methodological scrutiny according to basic scientific premises, characteristics that cannot be assured by processes in which the rationale for decisions is provided post hoc.</abstract><cop>United States</cop><pub>Blackwell Publishing Ltd</pub><pmid>24510745</pmid><doi>10.1002/bdrb.21096</doi><tpages>24</tpages><oa>free_for_read</oa></addata></record> |
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| ispartof | Birth defects research. Part B. Developmental and reproductive toxicology, 2014-02, Vol.101 (1), p.90-113 |
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| source | MEDLINE; Wiley Online Library Journals Frontfile Complete |
| subjects | Androgens - agonists Androgens - metabolism Animals endocrine disrupters Endocrine Disruptor Screening Program Endocrine Disruptors - analysis Endocrine Disruptors - toxicity endocrine screening Endpoint Determination Estrogens - agonists Estrogens - metabolism Hypotheses Models, Biological Rats regulatory toxicology Signal Transduction - drug effects Steroids - biosynthesis Thyroid Gland - drug effects Thyroid Gland - metabolism Toxicity Tests - methods weight of evidence |
| title | Relevance Weighting of Tier 1 Endocrine Screening Endpoints by Rank Order |
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