Toxicity in two types of universal nanomaterials

Two groups of independent scientists in the US have published new research results showing that iron (Fe) nanoparticles and short nanotubes can pose risks to human and animal health.

Two groups of independent scientists in the US have published new research results showing that iron (Fe) nanoparticles and short nanotubes can pose risks to human and animal health.

The first team led by Sungho Jin (University of California, San Diego) discovered that iron-containing nanoparticles can be toxic to nerve cells. The second group led by Matthew Becker and colleagues at the National Institute of Standards and Technology (NIST, USA) discovered that single-walled nanotubes shorter than 200 nm can easily enter lung cells.

In recent times, nanoparticles contain iron (Fe, Fe 3 O 4 . particles) which have been strongly researched for application in biomedical technologies such as drug delivery, cell selection, treatment. cancer, magnetic resonance and many other applications . Iron oxide nanoparticles (Fe 3 O 4 ) are an important candidate for drug application and cell kill, malignant tumors. Because iron is a basic component in mammalian cells (eg Fe in red blood cells), it is thought that nanoparticles containing Fe are completely harmless to organisms.

However, recently, Jin's team and colleagues at the University of California, San Diego observed the toxic effect appearing in nerve cells covered by iron nanoparticles. When placed in nanoparticles, many cells have died and others have reduced ability to produce neurons - extremely necessary for the transmission of nerve signals (see picture). first). This toxicological discovery will be published in Biomaterials magazine, as a warning that this material is not as harmless as we think - according to Jin.

Picture 1 of Toxicity in two types of universal nanomaterials

Figure 1. Photographs of PC12 neurons covered by iron oxide nanoparticles (Group results at University of California, San Diego will be published on Biomaterials)

Simultaneously with this study, Becker's team (NIST) discovered that lung cells easily absorb single-walled nanocarbon tubes that cover DNA when the size of the tube is shorter than 200 nm. Depending on the concentration of the nanomaterials, cells may die or cause different toxic effects. In contrast, nanotubes longer than 200 nm cannot enter the cell (Figure 2).

Picture 2 of Toxicity in two types of universal nanomaterials

Figure 2. Results of the group at NIST published in Advanced Materials: Nanocarbon tubes through human lung cells.

We have long known that nanocarbon tubes have excellent mechanical properties and electrical conductivity. They can be used for many applications in technology and industry as their biocompatible properties so far we know very little."Our results have shown that penetrating lung cells depends on the length of the nanotubes," Becker explained. "This will be the first step in many of the next steps in research goals. limiting the health effects of nanotubes ". The results of the group at NIST have just been published in Advanced Materials.

Picture 3 of Toxicity in two types of universal nanomaterials

Are these Fe 3 O 4 nanoparticles completely harmless to human health?

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Update 16 December 2018
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