Your search keyword '"Aggett, Peter"' showing total 3 results

1. An Exposure-Response Curve for Copper Excess and Deficiency.

Author

Chambers, Andrea, Krewski, Daniel, Birkett, Nicholas, Plunkett, Laura, Hertzberg, Richard, Danzeisen, Ruth, Aggett, Peter J., Starr, Thomas B., Baker, Scott, Dourson, Michael, Jones, Paul, Keen, Carl L., Meek, Bette, Schoeny, Rita, and Slob, Wout

Subjects

COPPER research, LINEAR statistical models, ANIMAL species, DRINKING water, METALLOENZYMES

Abstract

There is a need to define exposure-response curves for both Cu excess and deficiency to assist in determining the acceptable range of oral intake. A comprehensive database has been developed where different health outcomes from elevated and deficient Cu intakes were assigned ordinal severity scores to create common measures of response. A generalized linear model for ordinal data was used to estimate the probability of response associated with dose, duration and severity. The model can account for differences in animal species, the exposure medium (drinking water and feed), age, sex, and solubility. Using this model, an optimal intake level of 2.6 mg Cu/d was determined. This value is higher than the current U.S. recommended dietary intake (RDI; 0.9 mg/d) that protects against toxicity from Cu deficiency. It is also lower than the current tolerable upper intake level (UL; 10 mg/d) that protects against toxicity from Cu excess. Compared to traditional risk assessment approaches, categorical regression can provide risk managers with more information, including a range of intake levels associated with different levels of severity and probability of response. To weigh the relative harms of deficiency and excess, it is important that the results be interpreted along with the available information on the nature of the responses that were assigned to each severity score. [ABSTRACT FROM AUTHOR]

Published

2010

2. Letter to the Editor and Reply: Toxicity of Copper in Drinking Water.

Author

Brewer, George J., Danzeisen, Ruth, Stern, Bonnie Ransom, Aggett, Peter J., Deveau, Michelle, Plunkett, Laura, Chambers, Andrea, Krewski, Daniel, Levy, Leonard S., McArdle, Harry J., Keen, Carl L., Araya, Magdalena, and Solioz, Marc

Subjects

LETTERS to the editor, COPPER toxicity testing, COPPER content of drinking water, INGESTION, FOOD toxicology

Abstract

A letter to the editor and a reply are presented in response to the articles regarding toxicity and safety of the oral intake of copper in the 2010 issue.

Published

2010

3. Copper and Human Health: Biochemistry, Genetics, and Strategies for Modeling Dose-response Relationships.

Author

Stern, Bonnie Ransom, Solioz, Marc, Krewski, Daniel, Aggett, Peter, Tar-Ching Aw, Baker, Scott, Crump, Kenny, Dourson, Michael, Haber, Lynne, Hertzberg, Rick, Keen, Carl, Meek, Bette, Rudenko, Larisa, Schoeny, Rita, Slob, Wout, and Starr, Tom

Subjects

COPPER, METALS, MAMMALS, HEALTH risk assessment, HEALTH, MEDICAL care, MEDICAL sciences, DOSE-response relationship in biochemistry, BIOCHEMISTRY

Abstract

Copper (Cu) and its alloys are used extensively in domestic and industrial applications. Cu is also an essential element in mammalian nutrition. Since both copper deficiency and copper excess produce adverse health effects, the dose-response curve is U-shaped, although the precise form has not yet been well characterized. Many animal and human studies were conducted on copper to provide a rich database from which data suitable for modeling the dose-response relationship for copper may be extracted. Possible dose-response modeling strategies are considered in this review, including those based on the benchmark dose and categorical regression. The usefulness of biologically based dose-response modeling techniques in understanding copper toxicity was difficult to assess at this time since the mechanisms underlying copper-induced toxicity have yet to be fully elucidated. A dose-response modeling strategy for copper toxicity was proposed associated with both deficiency and excess. This modeling strategy was applied to multiple studies of copper-induced toxicity, standardized with respect to severity of adverse health outcomes and selected on the basis of criteria reflecting the quality and relevance of individual studies. The use of a comprehensive database on copper-induced toxicity is essential for dose-response modeling since there is insufficient information in any single study to adequately characterize copper dose-response relationships. The dose-response modeling strategy envisioned here is designed to determine whether the existing toxicity data for copper excess or deficiency may be effectively utilized in defining the limits of the homeostatic range in humans and other species. By considering alternative techniques for determining a point of departure and low-dose extrapolation (including categorical regression, the benchmark dose, and identification of observed no-effect levels) this strategy will identify which techniques are most suitable for this purpose. This analysis also serves to identify areas in which additional data are needed to better define the characteristics of dose-response relationships for copper-induced toxicity in relation to excess or deficiency. [ABSTRACT FROM AUTHOR]

Published

2007