Your search keyword '"Elek B"' showing total 2 results

1. Dietary Lead and Phosphate Interactions Affect Oral Bioavailability of Soil Lead in the Mouse.

Author

Bradham KD, Nelson CM, Diamond GL, Thayer WC, Scheckel KG, Noerpel M, Herbin-Davis K, Elek B, and Thomas DJ

Subjects

Animals, Biological Availability, Female, Mice, Mice, Inbred C57BL, Phosphates, Soil, Soil Pollutants

Abstract

Effects of dietary P level on the oral bioavailability of Pb present in soil were examined in a mouse model. Adult female C57BL/6 mice had free access to AIN-93G purified rodent diet amended with Pb as a soluble salt, Pb acetate, or in a soil matrix (NIST SRM 2710a). In these studies, the basal diet contained P at a nutritionally sufficient level (0.3% w/w) and the modified diets contained P at a lower (0.15%) or a higher (1.2%) level. For either dietary Pb source (Pb acetate or NIST SRM 2710a), low dietary P level markedly increased accumulation of Pb in bone, blood, and kidney. Tissue Pb levels in mice fed a high P in diet were not different from mice fed the basal P diet. Dietary P and Pb interacted to affect body weight change and feed efficiency in mice. The relative contribution of different Pb species in diet and feces was also affected by dietary P level. Differences in Pb species between diet and feces indicated that transformation of Pb species can occur during gastrointestinal tract transit. These interactions between Pb and P that alter Pb speciation may be important determinants of the bioavailability of Pb ingested in soil.

Published

2019

2. Long-Term in Situ Reduction in Soil Lead Bioavailability Measured in a Mouse Model.

Author

Bradham KD, Diamond GL, Nelson CM, Noerpel M, Scheckel KG, Elek B, Chaney RL, Ma Q, and Thomas DJ

Subjects

Animals, Biological Availability, Mice, Missouri, Phosphates, Swine, Soil, Soil Pollutants

Abstract

Effects of different treatments on the bioavailability of lead (Pb) in soil from a smelter emission contaminated site in Joplin, Missouri, were evaluated in a mouse model. Similar estimates of relative bioavailability for Pb in untreated or treated soil were obtained in mice and in the well-established juvenile swine model. In the mouse model, treatments that used phosphate (phosphoric acid or triple superphosphate) combined with iron oxide or biosolids compost significantly reduced soil Pb bioavailability. Notably, effects of these remediation procedures were persistent, given that up to 16 years had elapsed between soil treatment and sample collection. Remediation of soils was associated with changes in Pb species present in soil. Differences in Pb species in ingested soil and in feces from treated mice indicated that changes in Pb speciation occurred during transit through the gastrointestinal tract. Use of the mouse model facilitates evaluation of remediation procedures and allows monitoring of the performance of procedures under laboratory and field conditions.

Published

2018