Tag Archives: Baylor University

Investigating nanoparticles and their environmental impact for industry?

It seems the Center for the Environmental Implications of Nanotechnology (CEINT) at Duke University (North Carolina, US) is making an adjustment to its focus and opening the door to industry, as well as, government research. It has for some years (my first post about the CEINT at Duke University is an Aug. 15, 2011 post about its mesocosms) been focused on examining the impact of nanoparticles (also called nanomaterials) on plant life and aquatic systems. This Jan. 9, 2017 US National Science Foundation (NSF) news release (h/t Jan. 9, 2017 Nanotechnology Now news item) provides a general description of the work,

We can’t see them, but nanomaterials, both natural and manmade, are literally everywhere, from our personal care products to our building materials–we’re even eating and drinking them.

At the NSF-funded Center for Environmental Implications of Nanotechnology (CEINT), headquartered at Duke University, scientists and engineers are researching how some of these nanoscale materials affect living things. One of CEINT’s main goals is to develop tools that can help assess possible risks to human health and the environment. A key aspect of this research happens in mesocosms, which are outdoor experiments that simulate the natural environment – in this case, wetlands. These simulated wetlands in Duke Forest serve as a testbed for exploring how nanomaterials move through an ecosystem and impact living things.

CEINT is a collaborative effort bringing together researchers from Duke, Carnegie Mellon University, Howard University, Virginia Tech, University of Kentucky, Stanford University, and Baylor University. CEINT academic collaborations include on-going activities coordinated with faculty at Clemson, North Carolina State and North Carolina Central universities, with researchers at the National Institute of Standards and Technology and the Environmental Protection Agency labs, and with key international partners.

The research in this episode was supported by NSF award #1266252, Center for the Environmental Implications of NanoTechnology.

The mention of industry is in this video by O’Brien and Kellan, which describes CEINT’s latest work ,

Somewhat similar in approach although without a direction reference to industry, Canada’s Experimental Lakes Area (ELA) is being used as a test site for silver nanoparticles. Here’s more from the Distilling Science at the Experimental Lakes Area: Nanosilver project page,

Water researchers are interested in nanotechnology, and one of its most commonplace applications: nanosilver. Today these tiny particles with anti-microbial properties are being used in a wide range of consumer products. The problem with nanoparticles is that we don’t fully understand what happens when they are released into the environment.

The research at the IISD-ELA [International Institute for Sustainable Development Experimental Lakes Area] will look at the impacts of nanosilver on ecosystems. What happens when it gets into the food chain? And how does it affect plants and animals?

Here’s a video describing the Nanosilver project at the ELA,

You may have noticed a certain tone to the video and it is due to some political shenanigans, which are described in this Aug. 8, 2016 article by Bartley Kives for the Canadian Broadcasting Corporation’s (CBC) online news.

Underwriting nanotechnology: a webinar for the insurance industry

The US National Nanotechnology Coordination Office (NNCO) is hosting a free webinar “Nanotechnology and the insurance industry” according to a Sept. 9, 2016 NNCO news release,

The National Nanotechnology Coordination Office (NNCO) will hold the next in its series of free webinars addressing challenges in commercializing nanotechnology on Thursday, September 22, 2016, from 1 to 2 PM EDT. This webinar will focus on the insurance industry and the challenges of underwriting nanotechnology and other emerging technologies. NNCO Director Dr. Michael Meador will moderate the webinar discussion.

Speakers:

  • Allen Gelwick, Executive Vice President of the Lockton Companies. Mr. Gelwick is a leading insurance expert and has been active in the nanotechnology community for over ten years.
  • Christie Sayes, Associate Professor of Environmental Science and Toxicology at Baylor University. Dr. Sayes is a subject matter expert in nanomaterial-related toxicology and exposure.
  • David Swatzell, Managing Partner at Knowtional, a management consulting firm. Mr. Swatzell is a business strategy expert in IT and other high-tech industries. Prior to joining Knowtional, he held various senior positions at Hewlett-Packard and other technology firms.
  • Madhu Nutakki, Digital Chief Technology Officer, Innovation & Mobile Delivery, at AIG. Mr. Nutakki develops digital strategies from concept to implementation at AIG, one of the world’s largest insurance companies.

Audience:  Representatives of the insurance industry, the nanotechnology business community, and interested members of the general public, media, academia, industry, NGOs, and Federal, State, and local governments are encouraged to participate.

Why: To engage in a dialogue about insurance and risk issues of interest to the nanotechnology and insurance communities through a free, online format.

How: Invited speakers will begin the event by providing an overview of their experiences, successes, and challenges in insuring and underwriting products based on nanotechnology and other emerging technologies. Questions for the panel can be submitted to webinar@nnco.nano.gov from now through the end of the webinar at 2 PM on September 22, 2016.

Registration:  This webinar is free and open to the public with registration on a first-come, first-served basis. Registration is now open and will be capped at 500. To register, visit https://nnco.adobeconnect.com/e2lmvye37yw/event/registration.html

h/t for webinar information to Nanowerk Sept. 9, 2016 news item.

Study nanomaterial toxicity without testing animals

The process of moving on from testing on animals is laborious as new techniques are pioneered and, perhaps more arduously, people’s opinions and habits are changed. The People for the Ethical Treatment of Animals (PETA) organization focusing the research end of things has announced a means of predicting carbon nanotube toxicity in lungs according to an April 25, 2016 news item on Nanowerk (Note: A link has been removed),

A workshop organized last year [2015] by the PETA International Science Consortium Ltd has resulted in an article published today in the journal Particle and Fibre Toxicology (“Aerosol generation and characterization of multi-walled carbon nanotubes [MWCNTs] exposed to cells cultured at the air-liquid interface”). It describes aerosol generation and exposure tools that can be used to predict toxicity in human lungs following inhalation of nanomaterials.

An April 25, 2016 PETA press release on EurekAlert, which originated the news item, explains further without much more detail,

Nanomaterials are increasingly being used in consumer products such as paints, construction materials, and food packaging, making human exposure to these materials more likely. One of the common ways humans may be exposed to these substances is by inhalation, therefore, regulatory agencies often require the toxicity of these materials on the lungs to be tested. These tests usually involve confining rats to small tubes the size of their bodies and forcing them to breathe potentially toxic substances before they are killed. However, time, cost, scientific and ethical issues have led scientists to develop methods that do not use animals. The tools described in the new article are used to deposit nanomaterials (or other inhalable substances) onto human lung cells grown in a petri dish.

Co-authors of the Particle and Fibre Toxicology article are scientists from the PETA Science Consortium , The Dow Chemical Company, Baylor University, and the U.S. NTP Interagency Center for the Evaluation of Alternative Toxicological Methods (NICEATM).

“Promoting non-animal methods to assess nanotoxicity has been a focus of the PETA International Science Consortium”, said Dr. Monita Sharma, co-author of the publication and Nanotechnology Specialist at the Consortium, “we organized an international workshop last year on inhalation testing of nanomaterials and this review describes some of the tools that can be used to provide a better understanding of what happens in humans after inhaling these substances.” During the workshop, experts provided recommendations on the design of an in vitro test to assess the toxicity of nanomaterials (especially multi-walled carbon nanotubes) in the lung, including cell types, endpoints, exposure systems, and dosimetry considerations. Additional publications summarizing the outcomes of the workshop are forthcoming.

Here’s a link to and a citation for the paper,

Aerosol generation and characterization of multi-walled carbon nanotubes exposed to cells cultured at the air-liquid interface by William W. Polk, Monita Sharma, Christie M. Sayes, Jon A. Hotchkiss, and Amy J. Clippinger. Particle and Fibre Toxicology201613:20 DOI: 10.1186/s12989-016-0131-y Published: 23 April 2016

This is an open access paper.