A Parenting & kids forum. ParentingBanter.com

If this is your first visit, be sure to check out the FAQ by clicking the link above. You may have to register before you can post: click the register link above to proceed. To start viewing messages, select the forum that you want to visit from the selection below.

Go Back   Home » ParentingBanter.com forum » misc.kids » Kids Health
Site Map Home Authors List Search Today's Posts Mark Forums Read Web Partners

WSJ: Common Industrial Chemicals In Tiny Doses Raise Health Issue



 
 
Thread Tools Display Modes
  #1  
Old July 6th 07, 12:36 AM posted to misc.health.alternative,talk.politics.medicine,misc.kids.health
Ilena Rose
external usenet poster
 
Posts: 1,139
Default WSJ: Common Industrial Chemicals In Tiny Doses Raise Health Issue

http://ilena-rosenthal.blogspot.com

http://online.wsj.com/article/SB112224731634594459.html

Common Industrial Chemicals In Tiny Doses Raise Health Issue
Advanced Tests Often Detect Subtle Biological Effects;

Are Standards Too Lax?

Getting in Way of Hormones

PETER WALDMAN / Wall Street Journal 25jul2005

Levels of Risk



For years, scientists have struggled to explain rising rates of some
cancers and childhood brain disorders. Something about modern living
has driven a steady rise of certain maladies, from breast and prostate
cancer to autism and learning disabilities.

EXPOSURE MILESTONES

Research findings on the effects of bisphenol A (BPA)
contrasted with EPA guidelines

Daily dose in milligrams per kilogram of body weight.

1988 0.05 mg EPA's predicted safe dose for humans
1997 0.002 mg Linked to enlarged prostate in male mice
1999 0.0024 mg Linked to early puberty in female mice
2003 0.0002 mg Linked to altered sperm in male rats

Relative Size Comparison

Scientists have found effects on rodents from steadily
smaller exposures to some chemicals, such as Bisphenol A,
used in food-can linings and polycarbonate plastic.

Source: scientific articles.

Mindfully.org Note:

The more refined research becomes, it will be discovered that
harmful doses will continually become smaller and they will be
proven to be hormonally active.

One must understand that science is not at all precise. And
most chemicals have not been tested in any meaningful way.
The chemical industry fights any and all threats to its ability
to continue producing things that are toxic.

There is generally a lag between the time when industry
scientists know that something is toxic and the time when
the toxicity of that industry's product(s) is made public
knowledge, which is only when forced to do so. This is the way
a corporation works. It knows no obligation to inform the public.
Nor does it feel guilt when its actions are found to be negligent
or criminal.

This WSJ article points to the ignorant stance of the Bush
administration, which of course is undeniable, but there has
been no administration that has taken a firm stance on this
issue or any other, for that matter. Past administrations have
offered nothing more than lip service and relatively meaningless
regulations.

Environmentalists fight tooth and nail to regulate each technology
in an essentially meaningless task of fighting one chemical at a
time, during which the industry is introducing thousands more.
Environmentalists do not want to appear too radical because they
would lose members and donations. But what they accomplish
is utterly meaningless.

We can see this in the fact that human health is failing rapidly.
Fertility rates have been falling at about 1.5% for more than
50 years, which is when we began to be bathed in a wide
variety of chemicals and other technologies. Our immune systems
are failing as well. The rates of incidence of cancers has steadily
increased. The same sort of indicators are seen in nature as well.
All species of fish are crashing. All animals are experiencing
problems similar to our own. Even plankton is failing.

One must understood that chemicals act in doses that have not
yet been, nor will be, measured. Chemicals also act together
in combinations of two or more to create synergies that can
significantly boost toxicity. These synergies can also occur
between other agents, such as microwave and nuclear radiation
— ionic and nonionic radiation.

Most of what is produced today is toxic in the manner discussed
by this WSJ article. The less of it one uses, the more healthy ones
life will be. If the WSJ is warning about chemicals, then the reader
must become educated on the subject because it is far worse than
they would write about, let alone understand.

*

More on Endocrine Disruptors on Mindfully.org

One suspect now is drawing intense scrutiny: the prevalence in the
environment of certain industrial chemicals at extremely low levels. A
growing body of animal research suggests to some scientists that even
minute traces of some chemicals, always assumed to be biologically
insignificant, can affect such processes as gene activation and the
brain development of newborns.

An especially striking finding: It appears that some substances may
have effects at the very lowest exposures that are absent at higher
levels.

Some scientists, many of them in industry, dismiss such concerns. But
the new science of low-dose exposure is challenging centuries of
accepted wisdom about toxic substances and rattling the foundation of
environmental law.

Modern pollution restrictions aim to limit exposures to levels past
studies have found safe. For example, it's known mercury can cause
learning problems in children if it's above 58 parts per billion in
the bloodstream. Dividing 58 by 10 to provide a margin of safety, U.S.
regulators advise that children and young women not accumulate more
than 5.8 parts per billion of mercury, by limiting consumption of
certain fish such as tuna.

But what if it turned out some common substances have essentially no
safe exposure levels at all? That was ultimately what the U.S.
Environmental Protection Agency concluded about lead after studying
its effects on children for decades. Indications some other chemicals
may have no safe limits have led regulators in Europe and Japan to bar
the use of certain compounds in toys and in objects used to serve
food. In the U.S., federal scientists are devising new tests that
could be used to screen thousands of common chemicals to make sure
they're safe at extremely low exposures.

Using advanced lab techniques, scientists have found that with some
chemicals, traces as minute as mere parts per trillion have biological
effects. That's one-millionth of the smallest traces even measurable
three decades ago, when many of today's environmental laws were
written. With some of these chemicals, such trace levels exist in the
blood and urine of the general population.

Some chemical traces appear to have greater effects in combination
than singly, another challenge to traditional toxicology, which tests
things individually.

The human body is complex, and effects seen in tests on small
laboratory animals and in human cells don't necessarily mean health
risks to people. "The question is what do we do about these low levels
once we know they're there," says Steve Hentges of the American
Plastics Council, a trade association.

For their part, companies and industry groups have attacked low-dose
research as alarmist and are challenging the findings with scientific
studies of their own. Some industry studies have contradicted the
low-dose findings of university and government labs. One reason, says
Rochelle Tyl, a toxicologist who does rodent studies on contract for
industry groups, is that academics seek "to find out if a chemical has
an intrinsic capacity to do harm," while industry scientists try to
measure actual dangers to people.

The result is that low-dose research has sparked a number of heated
scientific and regulatory controversies:

* Tiny doses of bisphenol A, which is used in polycarbonate
plastic baby bottles and in resins that line food cans, have been
found to alter brain structure, neurochemistry, behavior, reproduction
and immune response in animals. Makers and users of the chemical
maintain, citing a Harvard review of 19 studies, that the chemical is
harmless to humans at such levels. (See illustration above)
* Minute levels of phthalates, which are used in toys, building
materials, drug capsules, cosmetics and perfumes, have been
statistically linked to sperm damage in men and genital changes,
asthma and allergies in children. The U.S. Centers for Disease Control
and Prevention has detected comparable levels in Americans' urine.
Manufacturers say there is no reliable evidence that phthalates cause
any health problems.
* A chemical used in munitions, called perchlorate, is known to
inhibit production of thyroid hormone, which children need for brain
development. The chemical has been detected in drinking-water supplies
in 35 states, as well as in fruits, vegetables and breast milk. The
EPA has spent years mulling what is a safe level in drinking water.
The Defense Department and weapons makers maintain it is harmless at
much higher doses than those that Americans ingest.
* The weed killer atrazine has been linked to sexual malformations
in frogs that were exposed to water containing just 1/30th as much
atrazine as the EPA regards as safe in human drinking water. The
herbicide's main manufacturer, Syngenta AG, says other studies prove
atrazine is safe. The EPA favors more study.

In The Laboratory
Studies have linked some common chemicals
with toxic effect, though not necessarily at
levels to which humans are exposed:

What's it
Chemical What's it in linked to
-----------------------------------------------------
Bisphenol A Polycarbonate Altered brain,
(BPA) plastic bottles behavior and sex
and food-can
linings
-----------------------------------------------------
Dibutyl Cosmetics Gene and hormone
Phthalate shampoos, pills changes in rodents;
(DBP) nail polish, genital abnormalities
plastic toys in human infants
-----------------------------------------------------
Diethylhexy Polyvinylchloride Birth defects in
Phthalate building products, mice; pre-term birth
(DEHP) food packaging, in human infants;
toys, medical early puberty in girls
tubing
-----------------------------------------------------
Perchlorate Drinking water in Brain and behavior
35 states, fruits, changes in rats;
vegetables, thyroid effects in
breast milk people
-----------------------------------------------------
sources: Scuientific articles; US Environmental Protection Agency

*

More on Bisphenol A (BPA) on Mindfully.org

With so much still unknown, regulators are proceeding on different
tracks in different countries. Japan's government designates about 70
chemicals as potential "endocrine disruptors" — substances that may,
at tiny doses, interfere with hormonal signals that regulate human
organ development, metabolism and other functions. Japan has just
completed a $135 million research push on endocrine disruptors,
including setting up a national research center. The Japanese
government also has banned certain phthalates in food handlers' gloves
and containers, after detecting them in food. One manufacturer,
Fujitsu Ltd., has pledged to phase out its use of most suspected
endocrine disruptors over coming years.

The European Union has banned some kinds of phthalates in cosmetics
and toys, and it is considering a ban on nearly all phthalates in
household goods and medical devices. The EU also is planning to
require new safety tests for thousands of industrial chemicals, many
of which already exist in people's bodies at trace levels. Industry,
which would have to bear the cost of proving countless current
products safe, is fighting the measures, calling them a massive
unnecessary burden.

In the U.S., there are divisions within the government. The White
House plays down the issue, saying the low-dose hypothesis is
unproved. But many federal scientists and regulators at the EPA and
Health and Human Services Department are forging ahead with new
methods for assessing possible low-dose dangers. Legislatures in two
states, California and New York, are considering bills that would ban
use of certain phthalates in toys, child-care products and cosmetics,
while a California bill would restrict bisphenol A.

Earliest Concerns

One of the early scientists to focus on possible low-dose risks was
biologist Theo Colborn of the World Wildlife Fund. Studying the
decline of certain birds, mammals and fish in the upper Midwest, Dr.
Colborn spotted some patterns: Species that struggled to survive in
the industrialized Great Lakes thrived in inland areas that were less
polluted. And some offspring in more-polluted regions had gender
abnormalities, such as feminized sex organs in males. She theorized
that trace amounts of chemicals in the environment were disrupting
hormones.

Dr. Colborn and colleagues popularized low-dose concerns in a series
of conferences, articles and a best-selling 1996 book called "Our
Stolen Future." That year the EPA asked an outside advisory panel
[EDSTAC (Endocrine Disruptor Screening and Testing and Advisory
Committee)] to consider ways of screening industrial chemicals for
hormonal effects, a process still incomplete.

In 2000, a separate EPA-organized panel, after reviewing 49 studies,
said some hormonally active chemicals affect animals at doses as low
as the "background levels" to which the general human population is
subject. The panel said the health implications weren't clear but
urged the EPA to revisit its regulatory procedures to make sure such
chemicals are tested in animals at appropriately small doses.

The EPA hesitated. It responded in 2002 that "until there is an
improved scientific understanding of the low-dose hypothesis, EPA
believes that it would be premature to require routine testing of
substances for low-dose effects."

The Bush administration's regulatory czar, John Graham — administrator
of the Office of Information and Regulatory Affairs at the White House
Office of Management and Budget — later publicly dismissed as unproven
the idea that the hormonal system could be disrupted by multiple
low-dose exposures to industrial chemicals. For the past two years,
the administration has proposed funding cuts for EPA research on
suspected endocrine disrupters, but Congress has kept the funding
roughly level at about $10 million a year.

Since the review panel met in 2000, scientists have published more
than 100 peer-reviewed articles reporting further low-dose effects in
living animals and in human cells. These findings are generating some
early insights in the thorny process of translating laboratory data
into conclusions about human health.

Less Is More

One of the most provocative is that some hormonally active chemicals
seem to have more effects at extremely low exposures than at higher
ones. This challenges an axiom of toxicology stated by the Swiss
chemist Paracelsus nearly 500 years ago: The dose makes the poison.

Toxicologists traditionally derive risk by exposing rodents to
chemicals to find the lowest dose that leads to tumors, birth defects
or other readily observable effects. Regulators then divide the
highest "no-observable-effect" dose by an "uncertainty factor" —
anywhere from 10 to 1,000 — to set a maximum human exposure they can
be confident is safe.

But now researchers have found chemicals that have hormonal effects on
lab animals and on human cells in much tinier amounts than their
standard no-observable-effect levels. And with some of these
chemicals, as the tiny doses given to animals are increased, the
effects recede. Then, at much higher levels, broad systemic impacts
appear, such as reduced body weight.

An example is bisphenol A, or BPA, the ingredient in polycarbonate
baby bottles and food-can linings. It evidently is widespread in the
environment. In the U.S., the CDC has found traces of it in 95% of
urine samples tested. In Japan, researchers have detected BPA in fetal
amniotic fluid and the umbilical cords of newborns.

Studying BPA in rats in 1988, the EPA concluded the lowest exposure
with an "observed adverse effect" was 50 milligrams a day per kilogram
of body weight (one kilogram = 2.2 pounds). Dividing 50 by an
uncertainty factor of 1,000, the agency set a daily safe limit for
humans of 0.05 milligrams of BPA per kilogram of body weight. Since
then, however, academic scientists in several countries have done more
than 90 studies that have found BPA effects on animals and human cell
cultures from exposures well below this level.

The EPA used a relatively crude measure of the chemical's effects:
changes in rodents' body weights. The new studies looked at subtler,
hormone-related effects. Some studies found changes in rodents'
reproductive organs and brains at doses as low as 0.002 milligram per
kilogram of body weight per day. That is just one-25,000th the dose
that the EPA said was the lowest exposure having an observable adverse
effect.

Disrupting Hormones

Seeking to explain this pattern, scientists cite the endocrine
system's exquisite sensitivity. Animals and humans secrete
infinitesimal amounts of various hormones, such as estrogen, that
trigger responses when they occupy special receptors on the cells of
various organs. BPA is among numerous chemicals that can mimic
estrogen by occupying cells' estrogen receptors. When they do this at
critical phases of development, the chemicals can trigger unnatural
biological responses, such as brain and reproductive abnormalities.

At higher doses, however, BPA and other endocrine disruptors — instead
of triggering the unnatural responses — appear to overwhelm the
receptors. That explains, scientists say, why some chemicals seem to
have more potent hormonal effects at very low doses than at higher
ones.

Mr. Hentges of the American Plastics Council says studies show BPA is
harmless at the tiny levels to which humans are exposed. In 2001 the
plastics council agreed to pay Harvard's Center for Risk Analysis,
part of the Harvard School of Public Health, $600,000 to review BPA
studies. The 10 panelists found "no consistent affirmative evidence of
low-dose BPA effects" on the basis of 19 studies that were selected by
April 2002 for review.

However, many more BPA studies kept coming out, and when the center
published its report last fall, three of the 10 panelists declined to
be listed as authors. "There are other papers published after the
'cut-off' date that the panel did not review that may have altered
their conclusions," says one of the three, Paul Foster of the National
Institute of Environmental Health Sciences. A fourth, Claude Hughes of
Quintiles Transnational Corp., a pharmaceutical consulting firm,
signed but made the same point in a journal commentary criticizing the
report and calling for a new EPA risk assessment. The Harvard risk
center's executive director, George Gray, acknowledges that a "torrent
of new papers on BPA" may have made it impossible for the panel to
review everything by its deadline.

The plastics council's Mr. Hentges says his group reviews all studies
on BPA and believes none have changed the basic conclusion of the
Harvard report. "We continue to believe that the weight of evidence
indicates BPA poses no risk to human health," he says.

Chemicals in Combination

Environmental chemicals don't exist in isolation. People are exposed
to many different ones in trace amounts. So scientists at the
University of London checked a mixture. They tested the hormonal
strength of a blend of 11 common chemicals that can mimic estrogen.

Alone, each was very weak. But when scientists mixed low doses of all
11 in a solution with natural estrogen — thus simulating the chemical
cocktail that's inside the human body today — they found the hormonal
strength of natural estrogen was doubled. Such an effect inside the
body could disrupt hormonal action.

"In isolation, the contribution of individual [estrogen-like
chemicals] at the concentrations found in wildlife and human tissues
will always be small," wrote the scientists, led by Andreas
Kortenkamp, who directs research on endocrine disruptors for the EU.
But because such compounds are so widespread in the environment, the
researchers concluded, the cumulative effect on the human endocrine
system is "likely to be very large."

To test chemicals, toxicologists traditionally dose animals with a
single substance and then dissect them. But this method can't spot the
subtle effects associated with today's multiple exposures to low-dose
chemicals, says John Bucher, of the National Institute of
Environmental Health Sciences.

Now he and his boss, Christopher Portier, are revamping the federal
government's National Toxicology Program, which sets standards for how
chemicals are tested. Over about seven years, they hope to develop a
series of lab tests that will ultimately screen some 100,000
industrial compounds, individually and in mixtures, for biochemical
"markers" such as effects on specific genes.

The chemicals then will be ranked by mechanism of action and suspected
toxicity, and assigned priorities for further study. "It's taken us 25
years and $2 billion to study 900 chemicals," Dr. Portier says. "If
this works, we can study 15,000 in a year."

Page A1




 




Thread Tools
Display Modes

Posting Rules
You may not post new threads
You may not post replies
You may not post attachments
You may not edit your posts

vB code is On
Smilies are On
[IMG] code is On
HTML code is Off
Forum Jump

Similar Threads
Thread Thread Starter Forum Replies Last Post
Industrial Chemicals Impair Child Brain Development Ilena Rose Kids Health 2 January 21st 07 09:38 AM
Industrial Chemicals Impair Child Brain Development Ilena Rose Kids Health 0 December 28th 06 04:51 AM
Industrial Chemicals Impair Child Brain Development Ilena Rose Kids Health 9 December 15th 06 09:13 AM
Industrial Chemicals Impair Child Brain Development Ilena Rose Kids Health 0 November 11th 06 09:58 PM
Industrial Chemicals Damage Children's Brains Jan Drew Kids Health 2 November 11th 06 03:52 PM


All times are GMT +1. The time now is 03:21 PM.


Powered by vBulletin® Version 3.6.4
Copyright ©2000 - 2024, Jelsoft Enterprises Ltd.
Copyright ©2004-2024 ParentingBanter.com.
The comments are property of their posters.