Uzbekistan - Toxic Pollution in the Aral Sea Region

Research on toxins in the Aral Sea region: many years of DDT and other pesticide use shows up in mothermilk and cord blood.

Country:	Uzbekistan
Donors / Program:	Ministry of Environment, Netherlands, European Commission DG Relax TACIS
WECF Partners:	University of Groningen, Center Perzent
Issues:	Chemicals, food, agriculture, health, gender
Duration:	01/1999 - 01/2000

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WECF and its partner in the Aral Sea region have carried out a pilot study together with Prof. R. E. Boersma of the Medical University of Groningen, the European Laboratory for Nutrients and the Research Institute on Health and Environment RIVM, based in the Netherlands. For this research blood and mothermilk of 50 mother-child pairs have been tested on toxic pollution with persistent pesticides, PCBs, dioxins and heavy metals.

The research shows a link between the high levels of infant and maternal mortality in the region and environmental pollution with certain chemicals. The full report of the research has been published in scientific magazines early 2000 and afterwards be made available from WECF and the other project partners. The research project is part of a long-term study of the Medical University of Groningen on the health effects of PCBs and Organochlorine toxins on the health of children. Children in five different countries have been followed from birth till the age of 6.

Abstract

Polychlorinated biphenyls (PCBs) and dioxins are environmental pollutants. Prenatally, as well as postnatally through breast feeding, large amounts are transferred from mother to the child. Formula is free of these substances. Considering their potential developmental neurotoxicity, we investigated long term effects of perinatal exposure to PCBs and dioxins on neurological and cognitive development. Given the evidence that PCBs exert oestrogenic effects, and oestrogens are known to suppress lactation, we investigated the effect of maternal PCB body load on lactation performances as well.

Methods

A group of 418 infants were followed from birth up to 6 years of age. Half of them were fully breast fed (BF) for at least 6 weeks. Prenatal PCB exposure was measured from cord and maternal blood. Postnatal exposure was reflected by PCB and dioxin levels in breast and formula milk and plasma PCB levels at 42 months of age. Both neurological and cognitive development were taken as outcome variable at 18, 42 months and at 6 years of age. At 18 and 42 months the children's neurological condition was evaluated according to Hempel and at 6 years of age according to Touwen. The condition was evaluated in terms of optimality. Separately, the fluency of movements was scored. Cognitive abilities were measured at 18 months by the Bayley Scales of Infant Development, at 42 months by the Kaufman Assessment Battery for Children (K-ABC) and at the age of 6 years by the McCarthy Scales.

Daily breast milk volume and milk fat content in relation to PCB body load was evaluated in 102 mothers. Multivariate regression models were applied to analyse associations of measured exposure variables with independent variables adjusted for confounders.

Results

At 18 months of age cognitive development was not affected by either pre- or postnatal exposure to the measured PCBs and dioxins. However, neurological examination showed an adverse effect of prenatal exposure to the measured pollutants on neurological optimality score.

At 42 months of age we found negative associations between prenatal PCB exposure on cognitive development. However, no effect was demonstrated on postnatal exposure to the measured pollutants. Neurological development was not affected by either pre- or postnatal exposure to PCBs and dioxins.

At the age of 6 years the preliminary results showed evidence that cognitive development is affected by prenatal exposure to these pollutants in children from younger mothers. An adverse effect of prenatal exposure on neurological outcome was also demonstrated in the formula fed group, but not in the breast fed group.

Despite the higher PCB exposure from breast milk, we found - both at the age of 18 months, 42 months and 6 years - a beneficial effect of breast feeding on the quality of movements, in terms of fluency, and on the cognitive development tests.

Maternal PCB body load was inversely related to 24-h breast milk volume and milk fat content.

Conclusion

These data support the evidence that prenatal exposure to PCBs do have subtle negative effects on neurological and cognitive development of the child up to school-age. Human breast milk volume and fat content is adversely affected by the presently encountered PCB levels in the Aral Sea region. Our studies showed evidence that breast feeding counteracts the adverse developmental effects of PCBs and dioxins. Further studies are required to confirm or refute these findings.