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The gold standard: Researchers use nanoparticles to make 3-D DNA nanotubes 1/2/2009

Gold nanoparticles for controlled drug delivery 12/31/2008

Enhancing solar cells with nanoparticles 12/25/2008

Researchers make breakthrough in the production of double-walled carbon nanotubes 12/24/2008

Study on cytotoxicity of carbon nanotubes 12/23/2008

New research to exploit world's thinnest material 12/19/2008

Researchers create non-toxic clean-up method for potentially toxic nano materials 12/18/2008

Researchers print dense lattice of transparent nanotube transistors on flexible base 12/17/2008

Nanotubes sniff out cancer agents in living cells 12/16/2008

Nature, nanotechnology fuse in electric yarn that detects blood 12/16/2008

Method sorts out double-walled carbon nanotube problem 12/15/2008

Panel blasts federal nanotech risk research strategy 12/14/2008

People in the US and the UK show strong similarities in their attitudes toward nanotechnologies 12/13/2008

Nanotechnology 'culture war' possible, says study 12/12/2008

For nano, religion in US dictates a wary view 12/11/2008

Nanoparticles trigger cell death? (11/18/2008)

Tags:
nanoparticles, safety

Nanoparticles that are one milliard of a metre in size are widely used, for example, in cosmetics and food packaging materials. There are also significant amounts of nanoparticles in exhaust emissions. However, very little is yet known of their health effects, because only a very small portion of research into nanoparticles is focused on their health and safety risks. Nanoparticles have even been dubbed the asbestos of the 2000s bys some researchers, and therefore a considerable threat to people's health. While the use of nanoparticles in consumer products increases, their follow-up procedures and legislation are lagging behind. The European Union chemicals directive REACH does not even touch upon nanomaterials.

The research teams of Professor Ilpo Vattulainen (Department of Physics, Tampere University of Technology, Finland) and academy researcher Emppu Salonen (Department of Applied Physics, Helsinki University of Technology, Finland) have together with Professor Pu-Chun Ke's (Clemson University, SC, USA) team researched how carbon-based nanoparticles interact with cells. The results provided strong biophysical evidence that nanoparticles may alter cell structure and pose health risks.

It emerged from the research that certain cell cultures are not affected when exposed to fullerenes, i.e. nano-sized molecules that consist of spherical, ellipsoid, or cylindrical arrangement of carbon atoms. Cells are also not affected when exposed to gallic acid, an organic acid that is found in almost all plants and, for instance, in tea. However, when fullerenes and gallic acid are present in the cell culture at the same time, they interact to form structures that bind to the cell surface and cause cell death.

The research demonstrates how difficult it is to map out the health effects of nanoparticles. Even if a certain nanoparticle does not appear toxic, the interaction between this nanoparticle and other compounds in the human body may cause serious problems to cell functions. Since the number of possible combinations of nanoparticles and various biomolecules is immense, it is practically impossible to research them systematically.

Note: This story has been adapted from a news release issued by the Tampere University of Technology

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