Lead Exchange in Teeth and Bone: A Pilot Study Using Stable Lead Isotopes

Stable lead isotopes and lead concentrations were measured in the enamel and dentine of permanent (n = 37) and deciduous teeth (n = 14) from 47 European immigrants to Australia to determine whether lead exchange occurs in teeth and how it relates to lead exchange in bone. Enamel exhibits no exchange...

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Published inEnvironmental health perspectives Vol. 105; no. 8; pp. 820 - 824
Main Authors Gulson, Brian L., Gillings, Barrie R.
Format Journal Article
LanguageEnglish
Published United States National Institute of Environmental Health Sciences. National Institutes of Health. Department of Health, Education and Welfare 01.08.1997
Subjects
Adult
Aged
Blood
Bone and Bones - chemistry
Bones
Canals
Dental Enamel - chemistry
Dentin - chemistry
Environmental Exposure
Environmental health
Ethnic Groups
Female
Foreign exchange rates
Humans
Kinetics
Lead
Lead - analysis
Lead - metabolism
Lead isotopes
Male
Middle Aged
Pilot Projects
Teeth
Tooth enamel
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Summary:Stable lead isotopes and lead concentrations were measured in the enamel and dentine of permanent (n = 37) and deciduous teeth (n = 14) from 47 European immigrants to Australia to determine whether lead exchange occurs in teeth and how it relates to lead exchange in bone. Enamel exhibits no exchange of its European-origin lead with lead from the Australian environment. In contrast, dentine lead exchanges with Australian lead to the extent of ∼1% per year. In one subject, trabecular bone from the tooth socket exchanged almost all its European lead with Australian lead over a 15-year period (turnover of ∼6% per year), similar to the ∼8% per year proposed for lead turnover in trabecular bone. The repository characteristics of intact circumpulpal dentine were investigated by analyses of four sets of contiguous slices from six teeth: 1) a set consisting of slices with intact circumpulpal dentine and cementum; 2) a set in which these areas were removed; 3) another set consisting of slices with intact circumpulpal dentine and cementum; and 4) a set without cementum. These analyses show relatively small differences in isotopic composition between contiguous slices except that circumpulpal dentine appears to be the dominant control on lead concentration. There is a significant correlation (R2=0.19, p = 0.01, n = 34) of dentine lead concentration and rate of exchange with residence time from the country of origin and Australian lead, but there is no such correlation with enamel lead concentration. Analyses of permanent and deciduous teeth of subjects from other countries who have resided in Australia for varying lengths of time should resolve some of the questions arising from this pilot study.
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ISSN:0091-6765
1552-9924
DOI:10.1289/ehp.97105820