Nanotech Gamble

[Guest guest]

Nanotech Gamble

 

(http://www.aolnews.com/category/nanotech)

 

Amid Nanotech's Dazzling Promise, Health Risks Grow

Updated: 7 hours 54 minutes ago

 

http://www.aolnews.com/nanotech/article/amid-nanotechs-dazzling-promise-health-r\

isks-grow/19401235

 

_Andrew Schneider_ (http://www.aolnews.com/team/andrew-schneider) Senior

Public Health CorrespondentAOL News

First in a Three-Part Series

 

(March 24) -- For almost two years, molecular biologist Bénédicte

Trouiller doused the drinking water of scores of lab mice with

nano-titanium

dioxide, the most common nanomaterial _used in consumer products_

(http://www.aolnews.com/2010/03/24/hold-gallery-nano-products-are-everywhere/194\

01385/)

today.

 

She knew that earlier studies conducted in test tubes and petri dishes

had

shown the same particle could cause disease. But her tests at a lab at

UCLA's School of Public Health were in vivo -- conducted in living

organisms

-- and thus regarded by some scientists as more relevant in assessing

potential human harm.

 

Halfway through, Trouiller became alarmed: Consuming the nano-titanium

dioxide was damaging or destroying the animals' DNA and chromosomes. The

biological havoc continued as she repeated the studies again and again.

It was a

_significant finding_ (http://www.aolcdn.com/aolnews/cancerresearch.pdf)

:

 

The degrees of DNA damage and genetic instability that the 32-year-old

investigator documented can be " linked to all the big killers of man,

namely

cancer, heart disease, neurological disease and aging, " says Professor

Robert Schiestl, a genetic toxicologist who ran the lab at UCLA's School

of

Public Health where Trouiller did her research.

 

Courtesy Benedicte Trouiller

UCLA molecular biologist Bénédicte Trouiller found that

nano-titanium

dioxide -- the nanomaterial most commonly used in consumer products

today -- can damage or destroy DNA and chromosomes at degrees that can

be linked to " all the big killers of man, " a colleague says.

 

Nano-titanium dioxide is so pervasive that the _Environmental Working

Group_ (http://www.ewg.org/home) says it has calculated that close to

10,000

over-the-counter products use it in one form or another. Other public

health

specialists put the number even higher. It's " in everything from

medicine

capsules and nutritional supplements, to food icing and additives, to

skin

creams, oils and toothpaste, " Schiestl says. He adds that at least 2

million

pounds of nanosized titanium dioxide are produced and used in the U.S.

each year.

 

What's more, the particles Trouiller gave the mice to drink are just one

of an endless number of engineered, atom-size structures that have been

or

can be made. And a number of those nanomaterials have also been shown in

published, peer-reviewed studies (more than 170 from the National

Institute for

Occupational Safety and Health alone) to potentially cause harm as well.

 

Researchers have found, for instance, that carbon nanotubes -- widely

used

in many industrial applications -- can penetrate the lungs more deeply

than

asbestos and appear to cause asbestos-like, often-fatal damage more

rapidly. Other nanoparticles, especially those composed of

metal-chemical

combinations, can cause cancer and birth defects; lead to harmful

buildups in the

circulatory system; and damage the heart, liver and other organs of lab

animals.

(http://www.aolnews.com/category/nanotech/)

 

Also in This Series:

- _Regulated or Not, Nano-Foods Coming to a Store Near You_

(http://www.aolnews.com/nanotech/article/regulated-or-not-nano-foods-coming-to-a\

-store-near-

you/19401246)

- _Obsession With Growth Stymies Regulators_

(http://www.aolnews.com/nanotech/article/obsession-with-nanotech-growth-stymies-\

regulators/19401712)

- _Why Nanotech Hasn't (Yet) Triggered the 'Yuck Factor'_

(http://www.aolnews.com/nanotech/article/why-nanotech-hasnt-yet-triggered-the-yu\

ck-factor/1940

1419)

- _Nano-Products Are Everywhere_

(http://www.aolnews.com/nanotech/article/gallery-nano-products-are-everywhere/19\

401385)

Background:

- _Primer: How Nanotechnology Works_

(http://www.aolnews.com/nanotech/article/primer-how-nanotechnology-works/1940425\

8)

- _Timeline: Nanotech's Evolution_

(http://www.aolnews.com/nanotech/article/timeline-16-key-moments-in-nanotechs-ev\

olution/19402102)

- _Chart: Funding Shortchanges Safety _

(http://www.aolnews.com/nanotech/article/chart-federal-nanotech-funding-shortcha\

nges-safety-effort/19404348)

- _Key Findings of This Investigation_

(http://www.aolnews.com/nanotech/article/the-nanotech-gamble-aol-news-key-findin\

gs/19410735)

 

Yet despite those findings, most federal agencies _are doing little to

nothing to ensure public safety_

(http://www.aolnews.com/2010/03/24/hold-obsession-with-nanotech-growth-stymies-r\

egulators/19401712/)

.. Consumers have

virtually no way of knowing whether the products they purchase contain

nanomaterials, as under current U.S. laws it is completely up to

manufacturers

what to put on their labels. And hundreds of interviews conducted by AOL

News'

senior public health correspondent over the past 15 months make it clear

that movement in the government's efforts to institute safety rules and

regulations for use of nanomaterials is often as flat as the read-out on

a

snowman's heart monitor.

 

" How long should the public have to wait before the government takes

protective action? " says Jaydee Hanson, senior policy analyst for the

_Center

for Food Safety_ (http://truefoodnow.org/about/) . " Must the bodies

stack up first? "

 

Big Promise Comes With Potential Perils

 

" Nano " comes from the Greek word for dwarf, though that falls short of

conveying the true scale of this new world: Draw a line 1 inch long, and

25

million nanoparticles can fit between its beginning and end.

 

Apart from the materials' size, everything about nanotechnology is huge.

According to the federal government and investment analysts, more than

1,300

U.S. businesses and universities are involved in related research and

development. The National Science Foundation says that $60 billion to

$70

billion of nano-containing products are sold in this country annually,

with the

majority going to the energy and electronics industries.

 

FDA.gov

 

Both the promise and the potential peril of nanomaterials come from

their

staggeringly small size, which is highlighted by the chart above. (Note,

for example, how it shows that the periods on this page are equal to 1

million nanometers.)

 

Despite the speed bump of the recession, a global market for

nano-containing products that stood at $254 billion in 2005 is projected

to grow to $2.5 trillion over the next four years, says Michael Holman,

research director

of Boston-based Lux Research. Another projection, this one from National

Science Foundation senior nanotechnology adviser Mihail Roco, says that

nanotech will create at least 1 million jobs worldwide by 2015.

 

By deconstructing and then reassembling atoms into previously unknown

material -- the delicate process at the heart of nanotechnology --

scientists

have achieved medical advancements that even staunch critics admit are

miraculous. Think of a medical smart bomb: payloads of cancer-fighting

drugs

loaded into nanoscale delivery systems and targeted against a specific

tumor.

Carbon nanotubes, rod-shaped and rigid with a strength that surpasses

steel at a mere fraction of the weight, were touted by commentators at

the

Vancouver Olympics as helmets, skis and bobsleds made from

nanocomposites

flashed by. Those innovations follow ultralight bicycles used in the

Tour de

France, longer-lasting tennis balls, and golf balls touted to fly

straighter

and roll farther.

 

Food scientists, meanwhile, are almost gleeful over the ability to

create

nanostructures that can enhance food's flavor, shelf life and appearance

--

and to one day potentially use the engineered particles to craft food

without ever involving a farm or ranch.

 

Yet for all the technology's promise and relentless progress, major

questions remain about nanomaterials' effects on human health. A bumper

sticker spotted near the sprawling Food and Drug Administration complex

in Rockville,

Md., puts it well: " Nanotech -- wondrous, horrendous, and unknown. "

 

Adds Jim Alwood, nanotechnology coordinator in the Environmental

Protection Agency's Office of Pollution Prevention and Toxics: " There is

so much

uncertainty about the questions of safety. We can't tell you how safe or

unsafe nanomaterials are. There is just too much that we don't yet

know. "

What is known is by turns fascinating and sobering.

 

Courtesy Nanotechnology Project

The carbon nanotubes in this vial are part of a booming industry.

 

According to one consulting firm, the

global market for nano-containing products is projected to grow to $2.5

trillion by 2014.

 

Nanoparticles can heal, but they can also kill. Thanks to their size,

researchers have found, they can enter the body by almost every pathway.

They can be inhaled, ingested, absorbed through skin and eyes. They can

invade the brain through the olfactory nerves in the nose.

 

After penetrating the body, nanoparticles can enter cells, move from

organ

to organ and even cross the protective blood-brain barrier. They can

also

get into the bloodstream, bone marrow, nerves, ovaries, muscles and

lymph

nodes.

 

The toxicity of a specific nanoparticle depends, in part, on its shape

and

chemical composition. Many are shaped roughly like a soccer ball, with

multiple panels that can increase reactivity, thus exacerbating their

potential hazards.

 

Some nanoparticles can cause a condition called oxidative stress, which

can inflame and eventually kill cells. A potential blessing in

controlled

clinical applications, this ability also carries potentially disastrous

consequences.

 

" Scientists have engineered nanoparticles to target some types of cancer

cells, and this is truly wonderful, " says Dr. Michael Harbut, director

of the

Environmental Cancer Initiative at Michigan's Karmanos Cancer Institute.

" But until we have sufficient knowledge of, and experience with, this

21st-century version of the surgical scalpel, we run a very real risk of

simultaneously destroying healthy cells. "

 

When incorporated into food products, nanomaterials raise other

troubling

vagaries. In a report issued in January, the science committee of the

British House of Lords, following a lengthy review, concluded that there

was too

little research looking at the toxicological impact of eating

nanomaterials. The committee recommended that such " products will simply

be denied

regulatory approval until further information is available, " and also

raised

the concern that while the amount of nanomaterial in food may be small,

the

particles can accumulate from repeated consumption.

 

" It is chronic exposure to nanomaterials that is arguably more relevant

to

food science applications, " says Bernadene Magnuson, a food scientist

and toxicologist with _Cantox Health Sciences International_

(http://www.cantox.com/) . " Prolonged exposure studies must be

conducted. "

 

Given the potential hazards, public health advocates are calling for

greater restraint on the part of those rushing nano-products to market.

" The

danger is there today in the hundreds of nano-containing consumer

products

being sold, " says Jennifer Sass, senior scientist and nano expert for

the

nonpartisan _Natural Resources Defense Council_

(http://www.nrdc.org/about/) .

" Things that are in the nanoscale that are intentionally designed to be

put

into consumer products should be instantly required to be tested, and

until

proper risk assessments are done, they shouldn't be allowed to be sold. "

 

David Hobson, chief scientific officer for international risk assessment

firm _nanoTox_ (http://www.nanotox.com/) , adds that the questions

raised by

the growing body of research " are significant enough that we should

begin

to be concerned. We should not wait until we see visible health effects

in

humans before we take steps to protect ourselves or to redesign these

particles so that they're safer. "

 

Hobson says that when he talks to university and industry nano

scientists,

he sometimes feels as if he's talking with Marie Curie when she first

was

playing around with radium.

" It's an exciting advancement they're working with, " he says. " But no

one

even thinks that it could be harmful. "

 

More on Why Size Matters

 

At a weeklong Knight Foundation Science Workshop on nanotechnology at

the

Massachusetts Institute of Technology in June, five professors -- four

from

the Cambridge school and one from Cornell University -- dazzled their

fellow participants with extensive show-and-tells on the amazing

innovations coming out of their labs.

 

At one point, one played a video of a mouse with a severed spine

dragging

his lifeless rear legs around his cage. A scaffolding made of

nanomaterial

was later implanted across the mouse's injury. Further footage showed

the

same rodent, 100 days later, racing around his enclosure, all four legs

churning like mad.

 

When the five nanotech pioneers were asked about hazards from the

particles they were creating, only one said she was watching new health

studies

closely. The others said size had no impact on risk: No problems were

expected, since the same chemicals they had nano-ized had been used

safely for

years.

 

It's an argument echoed by researchers and nano-manufacturers around the

globe. But those assumptions are challenged by the many research efforts

presenting strong evidence to the contrary, among them Trouiller's

study,

which was published in November.

" The difference in size is vital to understanding the risk from the same

chemical, " says Schiestl, who was a co-author on the UCLA study.

" Titanium

dioxide is chemically inert and has been safely used in the body for

decades

for joint replacements and other surgical applications. But when the

very

same chemical is nanosized, it can cause illness and lead to death. "

 

Regulators Take a 'Wait-and-See' Approach

 

Many public health groups and environmental activists fear the

government's lethargy on nanotechnology will be a repeat of earlier

regulatory snafus where deadly errors were made in assessing the risk of

new substances. " The unsettling track record of other technological

breakthroughs -- like

asbestos, DDT, PCBs and radiation -- should give regulators pause as

they

consider the growing commercial presence of nanotech products, " says

Patty Lovera, assistant director of _Food & Water Watch_

(http://www.foodandwaterwatch.org/about/who-we-are/) . " This

wait-and-see approach puts consumers and the

environment at risk. "

 

While the agency has many critics, the EPA, for its part, is pursuing an

aggressive strategy on nanotechnology. Among nano-titanium dioxide's

other

uses, the particle is deployed as an agent for removing arsenic from

drinking water, and last year, the EPA handed out 500-page books of

health studies on the particles to a panel of scientists asked to advise

the agency on

the possible risk of that practice. (Another EPA science advisory board

held

hearings into the hazards from nanosilver used in hundreds of products,

from pants, socks and underwear to teething rings.)

 

Dr. Jesse Goodman, the FDA's chief scientist and deputy commissioner for

science and public health, says that " there is a most definite

requirement

that manufacturers ensure that the products be safe. " But he adds that

compliance is essentially voluntary. The FDA takes action only after an

unsafe

product is reported.

 

The Food and Drug Administration's handling of nano-titanium dioxide

provides a more emblematic example of the government's overall approach.

Public health advocates and some of the FDA's own risk assessors are

frustrated by

what they perceive as the agency's " don't look, don't tell " philosophy.

 

The FDA doesn't even make a pretense of evaluating nanoparticles in the

thousands of cosmetics, facial products or food supplements that have

already

flooded the market, even those that boast the presence of engineered

particles. _Nano Gold Energizing Cream_

(http://www.neimanmarcus.com/store/catalog/prod.jhtml?itemId=prod87220001 & ecid=N\

MCIGoogleBaseFeed & ci_src=14110944 & ci_sku=

C0BE1) ($420 a jar) and _Cyclic nano-cleanser _

(http://www.nanocyclic.com/Cleanser.asp) ($80 a bar) are among the many

similar products unevaluated

by the agency.

 

Dr. Jesse Goodman, the FDA's chief scientist and deputy commissioner for

science and public health, says the exclusion of cosmetics and

nutritional

supplements from its regulations is what Congress wants. Goodman adds

that

" there is a most definite requirement that manufacturers ensure that the

products be safe " but says that compliance is essentially voluntary,

with the FDA taking action only after an unsafe product is reported.

 

AOL News repeatedly asked what steps the FDA was taking regarding

nano-titanium dioxide, whose risks are acknowledged by other regulatory

bodies,

including the EPA and the NIOSH. The slow-to-arrive answer from

spokeswoman

Rita Chappelle: " If information were to indicate that additional safety

evaluation or other regulatory action is warranted, we would work with

all

parties to take the steps appropriate to ensure the safety of marketed

products. "

 

Chappelle says FDA scientists are conducting research that focuses on

nano-titanium dioxide, but declines to offer any details. Several of the

agency's own safety experts say they specifically have urged that the

engineered structures not be used in any products they do regulate

without appropriate safety testing.

 

Why Nano-Optimists Hold the Upper Hand

 

Many government investigators join civilian public health specialists in

denouncing the scant money that goes to exploring nanomaterials'

possibly

wicked side effects. The 2011 federal budget proposes spending $1.8

billion

on nanotechnology, but just $117 million, or 6.6 percent, of that total

was

earmarked for the study of safety issues.

 

The Obama administration says it is being appropriately vigilant about

nanotech. " This administration takes nanotechnology-related environment,

health and safety very seriously. It is a significant priority, " says

Travis

Earles, assistant director for nanotechnology in the White House Office

of Science and Technology Policy. After taking office, he adds, " We were

able to

immediately increase the spending in those areas. "

 

But Earles, in what has become standard federal practice, is more

fixated

on nanotech's upsides. " We are talking about new jobs, new markets,

economic and societal benefits so broad they stretch the imagination, "

he says.

Yes, " absolutely, " there are reasons for caution, he says. " But you

can't

refer to nanotechnology as a monolithic entity. Risk assessment depends

fundamentally on context -- it depends on the specific application and

the

specific material. "

 

There's some scientific basis for this

emphasize-the-positive position.

" Every time you find a hazardous response in a test tube, that should

not

necessarily be construed as a guarantee of a real-life adverse outcome, "

notes

Dr. Andre Nel, chief of the division of nanomedicine at the California

Nanosystems Institute at UCLA.

 

But there are two ways to proceed in the face of such uncertainty. One

is

to forge ahead, assuming the best -- that this will be one of those

times

where the lab results don't correlate to real-world experiences. Another

is

to hit pause and do the additional testing necessary to be sure that

sickened lab animals do not portend human harm.

 

For advocates of more precautions for nanotech, the latter is the only

responsible course. " From cosmetics to cookware to food, nanoparticles

are making their way into every facet of consumer life with little to no

oversight from government regulators, " says Lovera from Food & Water

Watch. " There are too many unanswered questions and common-sense demands

that these products be kept off the market until their safety is

assured. "

 

With a moratorium not a realistic option, the U.S. government, along

with

its counterparts abroad, is left to tread gingerly in responding to the

emerging evidence of nanotechnology's potential hazards.

 

" They don't want to cause either a collapse in the industry or generate

any kind of public backlash of any sort, " says Pat Mooney, executive

director

of _ETC Group_ (http://www.etcgroup.org/) , an international safety and

environmental watchdog. " So they're in the background talking about how

they're going to tweak regulations -- where in fact a lot more than

tweaking is

required.

 

" They've got literally thousands of [nano] products in the marketplace,

and they don't have any safety regulations in place, " Mooney continues.

" These are things that we're rubbing in our skin, spraying in our

fields, eating

and wearing. And that's a mistake, and they're trying to figure out what

to do about it all. "

 

_Return to The Nanotech Gamble home page. _

(http://www.aolnews.com/category/nanotech/)

[Guest guest]

Great. I'm sure the nano particles they're spraying in chemtrails will all

do us a world of good... NOT. What evil lurks in this world, if only we the

people could take direct action and rid the planet of these monsters. Just

unreal.

 

Bob

-

<robert-blau

<DeltaFlyers2 >;

; <SymphonicHealth >;

<oleander soup >; <cancervictory >;

<nhis >; <istpp; <p.dewberry;

<gyllenha; <avmassey; <alain108;

<duncanbrown108; <JA224TM; <cawinter;

<fjholler; <richardwolfson;

<kennethdarwinn7

Friday, March 26, 2010 6:08 AM

Nanotech Gamble

 

 

Nanotech Gamble

 

(http://www.aolnews.com/category/nanotech)

 

Amid Nanotech's Dazzling Promise, Health Risks Grow

Updated: 7 hours 54 minutes ago

 

http://www.aolnews.com/nanotech/article/amid-nanotechs-dazzling-promise-health-r\

isks-grow/19401235

 

_Andrew Schneider_ (http://www.aolnews.com/team/andrew-schneider) Senior

Public Health CorrespondentAOL News

First in a Three-Part Series

 

(March 24) -- For almost two years, molecular biologist Bénédicte

Trouiller doused the drinking water of scores of lab mice with

nano-titanium

dioxide, the most common nanomaterial _used in consumer products_

(http://www.aolnews.com/2010/03/24/hold-gallery-nano-products-are-everywhere/194\

01385/)

today.

 

She knew that earlier studies conducted in test tubes and petri dishes

had

shown the same particle could cause disease. But her tests at a lab at

UCLA's School of Public Health were in vivo -- conducted in living

organisms

-- and thus regarded by some scientists as more relevant in assessing

potential human harm.

 

Halfway through, Trouiller became alarmed: Consuming the nano-titanium

dioxide was damaging or destroying the animals' DNA and chromosomes. The

biological havoc continued as she repeated the studies again and again.

It was a

_significant finding_ (http://www.aolcdn.com/aolnews/cancerresearch.pdf)

:

 

The degrees of DNA damage and genetic instability that the 32-year-old

investigator documented can be " linked to all the big killers of man,

namely

cancer, heart disease, neurological disease and aging, " says Professor

Robert Schiestl, a genetic toxicologist who ran the lab at UCLA's School

of

Public Health where Trouiller did her research.

 

Courtesy Benedicte Trouiller

UCLA molecular biologist Bénédicte Trouiller found that

nano-titanium

dioxide -- the nanomaterial most commonly used in consumer products

today -- can damage or destroy DNA and chromosomes at degrees that can

be linked to " all the big killers of man, " a colleague says.

 

Nano-titanium dioxide is so pervasive that the _Environmental Working

Group_ (http://www.ewg.org/home) says it has calculated that close to

10,000

over-the-counter products use it in one form or another. Other public

health

specialists put the number even higher. It's " in everything from

medicine

capsules and nutritional supplements, to food icing and additives, to

skin

creams, oils and toothpaste, " Schiestl says. He adds that at least 2

million

pounds of nanosized titanium dioxide are produced and used in the U.S.

each year.

 

What's more, the particles Trouiller gave the mice to drink are just one

of an endless number of engineered, atom-size structures that have been

or

can be made. And a number of those nanomaterials have also been shown in

published, peer-reviewed studies (more than 170 from the National

Institute for

Occupational Safety and Health alone) to potentially cause harm as well.

 

Researchers have found, for instance, that carbon nanotubes -- widely

used

in many industrial applications -- can penetrate the lungs more deeply

than

asbestos and appear to cause asbestos-like, often-fatal damage more

rapidly. Other nanoparticles, especially those composed of

metal-chemical

combinations, can cause cancer and birth defects; lead to harmful

buildups in the

circulatory system; and damage the heart, liver and other organs of lab

animals.

(http://www.aolnews.com/category/nanotech/)

 

Also in This Series:

- _Regulated or Not, Nano-Foods Coming to a Store Near You_

(http://www.aolnews.com/nanotech/article/regulated-or-not-nano-foods-coming-to-a\

-store-near-

you/19401246)

- _Obsession With Growth Stymies Regulators_

(http://www.aolnews.com/nanotech/article/obsession-with-nanotech-growth-stymies-\

regulators/19401712)

- _Why Nanotech Hasn't (Yet) Triggered the 'Yuck Factor'_

(http://www.aolnews.com/nanotech/article/why-nanotech-hasnt-yet-triggered-the-yu\

ck-factor/1940

1419)

- _Nano-Products Are Everywhere_

(http://www.aolnews.com/nanotech/article/gallery-nano-products-are-everywhere/19\

401385)

Background:

- _Primer: How Nanotechnology Works_

(http://www.aolnews.com/nanotech/article/primer-how-nanotechnology-works/1940425\

8)

- _Timeline: Nanotech's Evolution_

(http://www.aolnews.com/nanotech/article/timeline-16-key-moments-in-nanotechs-ev\

olution/19402102)

- _Chart: Funding Shortchanges Safety _

(http://www.aolnews.com/nanotech/article/chart-federal-nanotech-funding-shortcha\

nges-safety-effort/19404348)

- _Key Findings of This Investigation_

(http://www.aolnews.com/nanotech/article/the-nanotech-gamble-aol-news-key-findin\

gs/19410735)

 

Yet despite those findings, most federal agencies _are doing little to

nothing to ensure public safety_

(http://www.aolnews.com/2010/03/24/hold-obsession-with-nanotech-growth-stymies-r\

egulators/19401712/)

.. Consumers have

virtually no way of knowing whether the products they purchase contain

nanomaterials, as under current U.S. laws it is completely up to

manufacturers

what to put on their labels. And hundreds of interviews conducted by AOL

News'

senior public health correspondent over the past 15 months make it clear

that movement in the government's efforts to institute safety rules and

regulations for use of nanomaterials is often as flat as the read-out on

a

snowman's heart monitor.

 

" How long should the public have to wait before the government takes

protective action? " says Jaydee Hanson, senior policy analyst for the

_Center

for Food Safety_ (http://truefoodnow.org/about/) . " Must the bodies

stack up first? "

 

Big Promise Comes With Potential Perils

 

" Nano " comes from the Greek word for dwarf, though that falls short of

conveying the true scale of this new world: Draw a line 1 inch long, and

25

million nanoparticles can fit between its beginning and end.

 

Apart from the materials' size, everything about nanotechnology is huge.

According to the federal government and investment analysts, more than

1,300

U.S. businesses and universities are involved in related research and

development. The National Science Foundation says that $60 billion to

$70

billion of nano-containing products are sold in this country annually,

with the

majority going to the energy and electronics industries.

 

FDA.gov

 

Both the promise and the potential peril of nanomaterials come from

their

staggeringly small size, which is highlighted by the chart above. (Note,

for example, how it shows that the periods on this page are equal to 1

million nanometers.)

 

Despite the speed bump of the recession, a global market for

nano-containing products that stood at $254 billion in 2005 is projected

to grow to $2.5 trillion over the next four years, says Michael Holman,

research director

of Boston-based Lux Research. Another projection, this one from National

Science Foundation senior nanotechnology adviser Mihail Roco, says that

nanotech will create at least 1 million jobs worldwide by 2015.

 

By deconstructing and then reassembling atoms into previously unknown

material -- the delicate process at the heart of nanotechnology --

scientists

have achieved medical advancements that even staunch critics admit are

miraculous. Think of a medical smart bomb: payloads of cancer-fighting

drugs

loaded into nanoscale delivery systems and targeted against a specific

tumor.

Carbon nanotubes, rod-shaped and rigid with a strength that surpasses

steel at a mere fraction of the weight, were touted by commentators at

the

Vancouver Olympics as helmets, skis and bobsleds made from

nanocomposites

flashed by. Those innovations follow ultralight bicycles used in the

Tour de

France, longer-lasting tennis balls, and golf balls touted to fly

straighter

and roll farther.

 

Food scientists, meanwhile, are almost gleeful over the ability to

create

nanostructures that can enhance food's flavor, shelf life and appearance

--

and to one day potentially use the engineered particles to craft food

without ever involving a farm or ranch.

 

Yet for all the technology's promise and relentless progress, major

questions remain about nanomaterials' effects on human health. A bumper

sticker spotted near the sprawling Food and Drug Administration complex

in Rockville,

Md., puts it well: " Nanotech -- wondrous, horrendous, and unknown. "

 

Adds Jim Alwood, nanotechnology coordinator in the Environmental

Protection Agency's Office of Pollution Prevention and Toxics: " There is

so much

uncertainty about the questions of safety. We can't tell you how safe or

unsafe nanomaterials are. There is just too much that we don't yet

know. "

What is known is by turns fascinating and sobering.

 

Courtesy Nanotechnology Project

The carbon nanotubes in this vial are part of a booming industry.

 

According to one consulting firm, the

global market for nano-containing products is projected to grow to $2.5

trillion by 2014.

 

Nanoparticles can heal, but they can also kill. Thanks to their size,

researchers have found, they can enter the body by almost every pathway.

They can be inhaled, ingested, absorbed through skin and eyes. They can

invade the brain through the olfactory nerves in the nose.

 

After penetrating the body, nanoparticles can enter cells, move from

organ

to organ and even cross the protective blood-brain barrier. They can

also

get into the bloodstream, bone marrow, nerves, ovaries, muscles and

lymph

nodes.

 

The toxicity of a specific nanoparticle depends, in part, on its shape

and

chemical composition. Many are shaped roughly like a soccer ball, with

multiple panels that can increase reactivity, thus exacerbating their

potential hazards.

 

Some nanoparticles can cause a condition called oxidative stress, which

can inflame and eventually kill cells. A potential blessing in

controlled

clinical applications, this ability also carries potentially disastrous

consequences.

 

" Scientists have engineered nanoparticles to target some types of cancer

cells, and this is truly wonderful, " says Dr. Michael Harbut, director

of the

Environmental Cancer Initiative at Michigan's Karmanos Cancer Institute.

" But until we have sufficient knowledge of, and experience with, this

21st-century version of the surgical scalpel, we run a very real risk of

simultaneously destroying healthy cells. "

 

When incorporated into food products, nanomaterials raise other

troubling

vagaries. In a report issued in January, the science committee of the

British House of Lords, following a lengthy review, concluded that there

was too

little research looking at the toxicological impact of eating

nanomaterials. The committee recommended that such " products will simply

be denied

regulatory approval until further information is available, " and also

raised

the concern that while the amount of nanomaterial in food may be small,

the

particles can accumulate from repeated consumption.

 

" It is chronic exposure to nanomaterials that is arguably more relevant

to

food science applications, " says Bernadene Magnuson, a food scientist

and toxicologist with _Cantox Health Sciences International_

(http://www.cantox.com/) . " Prolonged exposure studies must be

conducted. "

 

Given the potential hazards, public health advocates are calling for

greater restraint on the part of those rushing nano-products to market.

" The

danger is there today in the hundreds of nano-containing consumer

products

being sold, " says Jennifer Sass, senior scientist and nano expert for

the

nonpartisan _Natural Resources Defense Council_

(http://www.nrdc.org/about/) .

" Things that are in the nanoscale that are intentionally designed to be

put

into consumer products should be instantly required to be tested, and

until

proper risk assessments are done, they shouldn't be allowed to be sold. "

 

David Hobson, chief scientific officer for international risk assessment

firm _nanoTox_ (http://www.nanotox.com/) , adds that the questions

raised by

the growing body of research " are significant enough that we should

begin

to be concerned. We should not wait until we see visible health effects

in

humans before we take steps to protect ourselves or to redesign these

particles so that they're safer. "

 

Hobson says that when he talks to university and industry nano

scientists,

he sometimes feels as if he's talking with Marie Curie when she first

was

playing around with radium.

" It's an exciting advancement they're working with, " he says. " But no

one

even thinks that it could be harmful. "

 

More on Why Size Matters

 

At a weeklong Knight Foundation Science Workshop on nanotechnology at

the

Massachusetts Institute of Technology in June, five professors -- four

from

the Cambridge school and one from Cornell University -- dazzled their

fellow participants with extensive show-and-tells on the amazing

innovations coming out of their labs.

 

At one point, one played a video of a mouse with a severed spine

dragging

his lifeless rear legs around his cage. A scaffolding made of

nanomaterial

was later implanted across the mouse's injury. Further footage showed

the

same rodent, 100 days later, racing around his enclosure, all four legs

churning like mad.

 

When the five nanotech pioneers were asked about hazards from the

particles they were creating, only one said she was watching new health

studies

closely. The others said size had no impact on risk: No problems were

expected, since the same chemicals they had nano-ized had been used

safely for

years.

 

It's an argument echoed by researchers and nano-manufacturers around the

globe. But those assumptions are challenged by the many research efforts

presenting strong evidence to the contrary, among them Trouiller's

study,

which was published in November.

" The difference in size is vital to understanding the risk from the same

chemical, " says Schiestl, who was a co-author on the UCLA study.

" Titanium

dioxide is chemically inert and has been safely used in the body for

decades

for joint replacements and other surgical applications. But when the

very

same chemical is nanosized, it can cause illness and lead to death. "

 

Regulators Take a 'Wait-and-See' Approach

 

Many public health groups and environmental activists fear the

government's lethargy on nanotechnology will be a repeat of earlier

regulatory snafus where deadly errors were made in assessing the risk of

new substances. " The unsettling track record of other technological

breakthroughs -- like

asbestos, DDT, PCBs and radiation -- should give regulators pause as

they

consider the growing commercial presence of nanotech products, " says

Patty Lovera, assistant director of _Food & Water Watch_

(http://www.foodandwaterwatch.org/about/who-we-are/) . " This

wait-and-see approach puts consumers and the

environment at risk. "

 

While the agency has many critics, the EPA, for its part, is pursuing an

aggressive strategy on nanotechnology. Among nano-titanium dioxide's

other

uses, the particle is deployed as an agent for removing arsenic from

drinking water, and last year, the EPA handed out 500-page books of

health studies on the particles to a panel of scientists asked to advise

the agency on

the possible risk of that practice. (Another EPA science advisory board

held

hearings into the hazards from nanosilver used in hundreds of products,

from pants, socks and underwear to teething rings.)

 

Dr. Jesse Goodman, the FDA's chief scientist and deputy commissioner for

science and public health, says that " there is a most definite

requirement

that manufacturers ensure that the products be safe. " But he adds that

compliance is essentially voluntary. The FDA takes action only after an

unsafe

product is reported.

 

The Food and Drug Administration's handling of nano-titanium dioxide

provides a more emblematic example of the government's overall approach.

Public health advocates and some of the FDA's own risk assessors are

frustrated by

what they perceive as the agency's " don't look, don't tell " philosophy.

 

The FDA doesn't even make a pretense of evaluating nanoparticles in the

thousands of cosmetics, facial products or food supplements that have

already

flooded the market, even those that boast the presence of engineered

particles. _Nano Gold Energizing Cream_

(http://www.neimanmarcus.com/store/catalog/prod.jhtml?itemId=prod87220001 & ecid=N\

MCIGoogleBaseFeed & ci_src=14110944 & ci_sku=

C0BE1) ($420 a jar) and _Cyclic nano-cleanser _

(http://www.nanocyclic.com/Cleanser.asp) ($80 a bar) are among the many

similar products unevaluated

by the agency.

 

Dr. Jesse Goodman, the FDA's chief scientist and deputy commissioner for

science and public health, says the exclusion of cosmetics and

nutritional

supplements from its regulations is what Congress wants. Goodman adds

that

" there is a most definite requirement that manufacturers ensure that the

products be safe " but says that compliance is essentially voluntary,

with the FDA taking action only after an unsafe product is reported.

 

AOL News repeatedly asked what steps the FDA was taking regarding

nano-titanium dioxide, whose risks are acknowledged by other regulatory

bodies,

including the EPA and the NIOSH. The slow-to-arrive answer from

spokeswoman

Rita Chappelle: " If information were to indicate that additional safety

evaluation or other regulatory action is warranted, we would work with

all

parties to take the steps appropriate to ensure the safety of marketed

products. "

 

Chappelle says FDA scientists are conducting research that focuses on

nano-titanium dioxide, but declines to offer any details. Several of the

agency's own safety experts say they specifically have urged that the

engineered structures not be used in any products they do regulate

without appropriate safety testing.

 

Why Nano-Optimists Hold the Upper Hand

 

Many government investigators join civilian public health specialists in

denouncing the scant money that goes to exploring nanomaterials'

possibly

wicked side effects. The 2011 federal budget proposes spending $1.8

billion

on nanotechnology, but just $117 million, or 6.6 percent, of that total

was

earmarked for the study of safety issues.

 

The Obama administration says it is being appropriately vigilant about

nanotech. " This administration takes nanotechnology-related environment,

health and safety very seriously. It is a significant priority, " says

Travis

Earles, assistant director for nanotechnology in the White House Office

of Science and Technology Policy. After taking office, he adds, " We were

able to

immediately increase the spending in those areas. "

 

But Earles, in what has become standard federal practice, is more

fixated

on nanotech's upsides. " We are talking about new jobs, new markets,

economic and societal benefits so broad they stretch the imagination, "

he says.

Yes, " absolutely, " there are reasons for caution, he says. " But you

can't

refer to nanotechnology as a monolithic entity. Risk assessment depends

fundamentally on context -- it depends on the specific application and

the

specific material. "

 

There's some scientific basis for this

emphasize-the-positive position.

" Every time you find a hazardous response in a test tube, that should

not

necessarily be construed as a guarantee of a real-life adverse outcome, "

notes

Dr. Andre Nel, chief of the division of nanomedicine at the California

Nanosystems Institute at UCLA.

 

But there are two ways to proceed in the face of such uncertainty. One

is

to forge ahead, assuming the best -- that this will be one of those

times

where the lab results don't correlate to real-world experiences. Another

is

to hit pause and do the additional testing necessary to be sure that

sickened lab animals do not portend human harm.

 

For advocates of more precautions for nanotech, the latter is the only

responsible course. " From cosmetics to cookware to food, nanoparticles

are making their way into every facet of consumer life with little to no

oversight from government regulators, " says Lovera from Food & Water

Watch. " There are too many unanswered questions and common-sense demands

that these products be kept off the market until their safety is

assured. "

 

With a moratorium not a realistic option, the U.S. government, along

with

its counterparts abroad, is left to tread gingerly in responding to the

emerging evidence of nanotechnology's potential hazards.

 

" They don't want to cause either a collapse in the industry or generate

any kind of public backlash of any sort, " says Pat Mooney, executive

director

of _ETC Group_ (http://www.etcgroup.org/) , an international safety and

environmental watchdog. " So they're in the background talking about how

they're going to tweak regulations -- where in fact a lot more than

tweaking is

required.

 

" They've got literally thousands of [nano] products in the marketplace,

and they don't have any safety regulations in place, " Mooney continues.

" These are things that we're rubbing in our skin, spraying in our

fields, eating

and wearing. And that's a mistake, and they're trying to figure out what

to do about it all. "

 

_Return to The Nanotech Gamble home page. _

(http://www.aolnews.com/category/nanotech/)

 

 

 

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