Contact: Todd Datz
tdatz@hsph.harvard.edu
617-432-3952
Harvard School of Public Health
Boston, MA -- Fetal and early childhood exposures
to industrial chemicals in the environment can
damage the developing brain and can lead to
neurodevelopmental disorders (NDDs)--autism,
attention deficit disorder (ADHD), and mental
retardation. Still, there has been insufficient
research done to identify the individual chemicals
that can cause injury to the developing brains of
children.
In a new review study, published online in The
Lancet on November 8, 2006, and in an upcoming print
issue of The Lancet, researchers from the Harvard
School of Public Health and the Mount Sinai School
of Medicine systematically examined publicly
available data on chemical toxicity in order to
identify the industrial chemicals that are the most
likely to damage the developing brain.
The researchers found that 202 industrial
chemicals have the capacity to damage the human
brain, and they conclude that chemical pollution may
have harmed the brains of millions of children
worldwide. The authors conclude further that the
toxic effects of industrial chemicals on children
have generally been overlooked.
To protect children against industrial chemicals
that can injure the developing brain, the
researchers urge a precautionary approach for
chemical testing and control. Such an approach is
beginning to be applied in the European Union. It
puts in place strong regulations, which could later
be relaxed, if the hazard were less than
anticipated, instead of current regulations that
require a high level of proof. At present in the
U.S., requirements for toxicity testing of chemicals
are minimal.
"The human brain is a precious and vulnerable
organ. And because optimal brain function depends on
the integrity of the organ, even limited damage may
have serious consequences," says Philippe Grandjean,
adjunct professor at Harvard School of Public Health
and the study's lead author.
One out of every six children has a developmental
disability, usually involving the nervous system.
Treating NDDs is difficult and costly to both
families and society. In recent decades, a gathering
amount of evidence has linked industrial chemicals
to NDDs. Lead, for example, was the first chemical
identified as having toxic effects to early brain
development, though its neurotoxicity to adults had
been known for centuries.
A developing brain is much more susceptible to
the toxic effects of chemicals than an adult brain.
During development, the brain undergoes a highly
complex series of processes at different stages. An
interference--for example, from toxic
substances--that disrupts those processes, can have
permanent consequences. That vulnerability lasts
from fetal development through infancy and childhood
to adolescence. Research has shown that
environmental toxicants, such as lead or mercury, at
low levels of exposure can have subclinical
effects--not clinically visible, but still important
adverse effects, such as decreases in intelligence
or changes in behavior.
Grandjean and co-author Philip J. Landrigan,
Professor at Mount Sinai School of Medicine,
compiled a list of 202 environmental chemicals known
to be toxic to the human brain using the Hazardous
Substances Data Bank of the National Library of
Medicine and other data sources. (The authors note
that the list should not be regarded as
comprehensive; for example, the number of chemicals
that can cause neurotoxicity in laboratory animal
tests exceeds 1,000.)
The authors then examined the published
literature on the only five substances on the
list--lead, methylmercury, arsenic, PCBs and
toluene--that had sufficient documentation of
toxicity to the developing human brain in order to
analyze how that toxicity had been first recognized
and how it led to control of exposure. They found a
similar pattern in how the risks of each substance
were documented: first, a recognition of adult
toxicity and episodes of poisoning among children,
followed by a growing body of epidemiological
evidence that exposure to lower levels of the
substances caused neurobehavioral deficits in
children.
"Even if substantial documentation on their
toxicity is available, most chemicals are not
regulated to protect the developing brain," says
Grandjean. "Only a few substances, such as lead and
mercury, are controlled with the purpose of
protecting children. The 200 other chemicals that
are known to be toxic to the human brain are not
regulated to prevent adverse effects on the fetus or
a small child."
Grandjean and Landrigan conclude that industrial
chemicals are responsible for what they call a
silent pandemic that has caused impaired brain
development in millions of children worldwide. It is
silent because the subclinical effects of individual
toxic chemicals are not apparent in available health
statistics. To point out the subclinical risk to
large populations, the authors note that virtually
all children born in industrialized countries
between 1960 and 1980 were exposed to lead from
petrol, which may have reduced IQ scores above 130
(considered superior intelligence) by more than half
and increased the number of scores less than 70.
Today, it's estimated that the economic costs of
lead poisoning in U.S. children are $43 billion
annually; for methylmercury toxicity, $8.7 billion
each year.
"Other harmful consequences from lead exposure
include shortened attention spans, slowed motor
coordination and heightened aggressiveness, which
can lead to problems in school and diminished
economic productivity as an adult. And the
consequences of childhood neurotoxicant exposure
later in life may include increased risk of
Parkinson's disease and other neurogenerative
diseases," says Landrigan.
The researchers believe that the total impact of
the pandemic is much greater than currently
recognized. In supplementary documentation (see
below for a link), about half of the 202 chemicals
known to be toxic to the brain are among the
chemicals most commonly used.
Testing chemicals for toxicity is a highly
efficient public health measure. However, less than
half of the thousands of chemicals currently used in
commerce have been tested to assess acute toxicity
and, although new chemicals undergo more thorough
testing, access to the data may be restricted
because companies fear exposing proprietary
information. Also, current toxicity testing rarely
includes neurobehavioral functions.
"The brains of our children are our most precious
economic resource, and we haven't recognized how
vulnerable they are," says Grandjean. "We must make
protection of the young brain a paramount goal of
public health protection. You have only one chance
to develop a brain."
###
To view supplementary documentation on industrial
chemicals and risks of toxic effects on brain
development, click here:
http://www.hsph.harvard.edu/neurotoxicant/appendix.doc
Support for this research was provided by the
Danish Medical Research Council, the (U.S.) National
Institute of Environmental Health Sciences and the
U.S. Environmental Protection Agency.
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