Nanoparticles are everywhere. From cosmetics and clothes, to soda and
snacks. But as versatile as they are, nanoparticles also have a
downside, say researchers at Binghamton University and Cornell
University in a recent paper published in the journal Nature Nanotechnology. These tiny particles, even in low doses, could have a big impact on our long-term health.
According to lead author of the article, Gretchen Mahler, assistant
professor of bioengineering at Binghamton University, much of the
existing research on the safety of nanoparticles has been on the direct
health effects. But what Mahler, Michael L. Shuler of Cornell University
and a team of researchers really wanted to know was what happens when
someone gets constant exposure in small doses -- the kind you'd get if
you were taken a drug or supplement that included nanoparticles in some
form.
"We thought that the best way to measure the more subtle effects of
this kind of intake was to monitor the reaction of intestinal cells,"
said Mahler. "And we did this in two ways: in vitro, through human
intestinal-lining cells that we had cultured in the lab; and in vivo,
through the intestinal linings of live chickens. Both sets of results
pointed to the same thing -- that exposure to nanoparticles influences
the absorption of nutrients into the bloodstream."
The uptake of iron, an essential nutrient, was of particular interest
due to the way it is absorbed and processed through the intestines. The
way Mahler and the team tested this was to use polystyrene
nanoparticles because of its easily traceable fluorescent properties.
"What we found was that for brief exposures, iron absorption dropped
by about 50 percent," said Mahler. "But when we extended that period of
time, absorption actually increased by about 200 percent. It was very
clear -- nanoparticles definitely affects iron uptake and transport."
While acute oral exposure caused disruptions to intestinal iron
transport, chronic exposure caused a remodeling of the intestinal villi
-- the tiny, finger-like projections that are vital to the intestine's
ability to absorb nutrients -- making them larger and broader, thus
allowing iron to enter the bloodstream much faster.
"The intestinal cells are a gateway that ingested nanoparticles must
go through to get to the body," said Mahler. "We monitored iron
absorption both in vivo and in vitro and found that the polystyrene
nanoparticles affected the absorption process and caused a physiological
response."
The next step for Mahler and the team is to take a look at whether
similar disruptions in nutrient absorption could be possible in other
inorganic elements such as calcium, copper and zinc. Also on the
research agenda is the reaction of other nutrients such as fat-soluble
vitamins A, D, E and K. And chickens and their intestines will
definitely be part of this next phase of the study.
"The gastrointestinal tract of a chicken has very similar features to
that of a human," said Mahler. "We can learn a great deal from the way
chicken tissue works which means we can make better predictions about
how humans will react."
And humans certainly consume enough nanoparticles -- about 100
trillion of them every day. Their ultra-small size and amazing qualities
makes them increasingly common in food and pharmaceutical products.
Although the impact of chronic exposure remains somewhat unknown, the
ingestion of dietary particles is thought to promote a range of
diseases, including Crohn's disease. With so many nanomaterials under
development and with so much yet to be learned about nanoparticle
toxicity and potential human tissue reactivity, Mahler and the team are
hoping that their work, particularly the in vitro model, will provide an
effective low-cost screening tool.
Journal Reference:
- Gretchen J. Mahler, Mandy B. Esch, Elad Tako, Teresa L. Southard, Shivaun D. Archer, Raymond P. Glahn, Michael L. Shuler. Oral exposure to polystyrene nanoparticles affects iron absorption. Nature Nanotechnology, 2012; DOI: 10.1038/nnano.2012.3
Courtesy: ScienceDaily
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