Changes in Serial Blood Lead Levels during Pregnancy

• Published in: Environmental health perspectives Vol. 102; no. 10; pp. 876 - 880
• Main Authors: Rothenberg, Stephen J., Karchmer, Samuel, Schnaas, Lourdes, Perroni, Estela, Zea, Francisco, Alba, Julio Fernández
• Format: Journal Article
• Language: English
• Published: United States National Institute of Environmental Health Sciences. National Institutes of Health. Department of Health, Education and Welfare 01.10.1994
• Subjects: Adult; Blood; Body Weight; Bones; Calcium; Chemical hazards; Female; Fetus; Hematocrit; Human organs; Humans; Lead; Lead - blood; Mexico; Multiple regression; Pregnancy; Pregnancy - blood; Pregnancy Trimesters; Regression Analysis; Mexico
• ISSN: 0091-6765; 1552-9924
• DOI: 10.1289/ehp.94102876

The first step in modeling lead kinetics during pregnancy includes a description of sequential maternal blood lead (PbB) during pregnancy and the factors controlling it. We analyzed PbB of 105 women living in the Valley of Mexico from week 12 to week 36 of pregnancy and again at parturition. We also used data from all women contributing blood at any stage of pregnancy to determine antecedents of PbB. Pregnancies were uneventful, and offspring were normal. Although geometric mean PbB level averaged around 7.0 μg/dl (0.34 μmol/l), with a range of 1.0-35.5 μg/dl throughout pregnancy, analysis of variance revealed a significant decrease in mean PbB from week 12 to week 20 (1.1 μg/dl) and various significant increases in mean PbB from week 20 to parturition (1.6 μg/dl). Regression analyses confirmed the positive linear PbB trend from 20 weeks to parturition and additional contributions of dietary calcium, reproductive history, lifetime residence in Mexico City, coffee drinking, and use of indigenous lead-glazed pottery. Although decreasing hematocrit has been suggested to explain first-half pregnancy PbB decrease, the time course of hematocrit decrease in the present study did not match the sequential changes in PbB. While hemodilution and organ growth in the first half of pregnancy may account for much of the PbB decrease seen between 12 and 20 weeks, the remaining hemodilution and accelerated organ growth of the last half of pregnancy do not predict the trend toward increasing maternal PbB concentration from 20 weeks to delivery. Mobilization of bone lead, increased gut absorption, and increased retention of lead may explain part of the upward PbB trend in the second half of pregnancy. Reduction of lifetime lead exposure may be required to decrease risk of fetal exposure.