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Establishing Ethical Nanobiotechnology
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By Rebekah Orton
Newswise — Prosthetics moved by thoughts. Targeted treatments for aggressive brain cancer. Soldiers with enhanced vision or bionic ears.
These powerful technologies sound like science fiction, but they’re becoming possible thanks to nanoparticles.
And, as with any great power, there comes great responsibility.
“In medicine and other biological settings, nanotechnology is amazing and helpful, but it could be harmful if used improperly,” said Pacific Northwest National Laboratory (PNNL) chemist Ashley Bradley, part of a team of researchers who conducted a comprehensive survey of nanobiotechnology applications and policies.
Their research, available now in Health Security, works to sum up the very large, active field of nanotechnology in biology applications, draw attention to regulatory gaps, and offer areas for further consideration.
“In our research, we learned there aren’t many global regulations yet,” said Bradley. “And we need to create a common set of rules to figure out the ethical boundaries.”
Nanoparticles, big differences
Nanoparticles are clusters of molecules with different properties than large amounts of the same substances. In medicine and other biology applications, these properties allow nanoparticles to act as the packaging that delivers treatments through cell walls and the difficult to cross blood-brain barrier.
“You can think of the nanoparticles a little bit like the plastic around shredded cheese,” said PNNL chemist Kristin Omberg. “It makes it possible to get something perishable directly where you want it, but afterwards you’ve got to deal with a whole lot of substance where it wasn’t before.”
Unfortunately, dealing with nanoparticles in new places isn’t straightforward. Carbon is pencil lead, nano carbon conducts electricity. The same material may have different properties at the nanoscale, but most countries still regulate it the same as bulk material, if the material is regulated at all.
For example, zinc oxide, a material that was stable and unreactive as a pigment in white paint, is now accumulating in oceans when used as nanoparticles in sunscreen, warranting a call to create alternative reef-safe sunscreens. And although fats and lipids aren’t regulated, the researchers suggest which agencies could weigh in on regulations were fats to become after-treatment byproducts.
The article also inventories national and international agencies, organizations, and governing bodies with an interest in understanding how nanoparticles break down or react in a living organism and the environmental life cycle of a nanoparticle. Because nanobiotechnology spans materials science, biology, medicine, environmental science, and tech, these disparate research and regulatory disciplines must come together, often for the first time—to fully understand the impact on humans and the environment.
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About PNNL
Pacific Northwest National Laboratory draws on its distinguishing strengths in chemistry, Earth sciences, biology and data science to advance scientific knowledge and address challenges in sustainable energy and national security. Founded in 1965, PNNL is operated by Battelle for the Department of Energy’s Office of Science, which is the single largest supporter of basic research in the physical sciences in the United States. DOE’s Office of Science is working to address some of the most pressing challenges of our time. For more information, visit https://energy.gov/science. For more information on PNNL, visit PNNL’s News Center. Follow us on Twitter, Facebook, LinkedIn and Instagram.
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Pacific Northwest National Laboratory
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