1. Distribution of lead in human milk fractions: relationship with essential minerals and maternal blood lead.
- Author
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Anastácio Ada S, da Silveira CL, Miekeley N, and Donangelo CM
- Subjects
- Adult, Biological Availability, Brazil, Calcium analysis, Calcium, Dietary administration & dosage, Caseins analysis, Copper analysis, Female, Glycolipids analysis, Glycoproteins analysis, Humans, Iron analysis, Lactation, Lead blood, Lipid Droplets, Milk Proteins analysis, Nutritional Status, Whey Proteins, Zinc analysis, Lead analysis, Milk, Human chemistry
- Abstract
The purpose of this study was to determine the concentration and distribution of lead, calcium, iron, zinc, and copper in major fractions (fat, casein, whey) of mature milk from 38 nursing adult women with low environmental lead exposure. The potential associations between milk lead and maternal blood lead and between milk and blood lead and essential mineral data (nutritional status, dietary intake, and milk concentration) were investigated. Maternal blood lead (geometric mean, 60 microg/L) was negatively associated, although modestly, with dietary calcium intake (r=-0.32, p=0.02). Lead in whole milk (geometric mean, 1.2 microg/L) was positively associated with calcium in whole milk (r=0.56, p=0.005). Distribution of lead in milk fractions was 63%, 28%, and 9%, in whey, fat, and casein, respectively. Milk distribution of essential minerals was 67-76%, 17-18%, and 7-17% in whey, fat, and casein, respectively. Lead in milk whey was positively associated with lead in maternal blood (r=0.49, p=0.02). However, milk lead was not affected by nutritional status, dietary intake, and milk composition of the essential minerals. The high percentage of lead in the milk whey fraction, as seen for the essential minerals, suggests that most lead in human milk is bioavailable to the infant.
- Published
- 2004
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