Tag Archives: Danielle Fugere

Walgreens (US-based pharmacy), As You Sow (civil society), and engineered hydroxyapatite (HA) nanoparticles

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As You Sow has graced this blog before, notably in a March 13, 2015 posting about their success getting the corporate giant, Dunkin’ Donuts, to stop its practice of making powdered sugar whiter by adding nanoscale (and other scales) of titanium dioxide. What’s notable about As You Sow is that it files shareholder resolutions (in other words, the society owns shares of their corporate target) as one of its protest tactics.

This time, As You Sow has focused on Walgreens, a US pharmacy giant. This company has chosen a response that differs from Dunkin’ Donuts’ according to a Sept. 21, 2016 news item on Nanotechnology Now,

Rather than respond to shareholder concerns that Walgreens’ store-brand infant formula may contain harmful, “needle-like” nanomaterials, Walgreens filed a motion with the SEC [US Securities and Regulatory Commission] to block the inquiry.

A Sept. 21, 2016 As You Sow press release, which originated the news item, fills in a few details,

Walgreen’s Well Beginnings™ Advantage® infant formula has been reported to contain engineered hydroxyapatite (HA) nanoparticles, according to independent laboratory testing commissioned by nonprofit group Friends of the Earth. The E.U. Scientific Committee on Consumer Safety (SCCS) has determined that nano-HA may be toxic to humans and that the needle-form of nano-HA should not be used in products.

Walgreens’ “no-action letter” to the SEC argues that the company can exclude the shareholder proposal because “the use of nanomaterials in products … does not involve a significant social policy issue.” The company also claims its infant formula does not contain engineered nanomaterials, contrary to the independent laboratory testing.

“Walgreens is effectively silencing shareholder discussion of this subject,” said Austin Wilson, Environmental Health Program Manager of shareholder advocacy group As You Sow. “If Walgreens had responded to consumers’ and investors’ concerns, there would be no need for shareholders to file a proposal.”

“Shareholders will ultimately bear the burden of litigation if infants are harmed,” said Danielle Fugere, President and Chief Counsel of As You Sow. “Walgreens’ attempt to silence, rather than address, shareholder concerns raises red flags. To be successful, Walgreens must remain a trusted name for consumers and it can’t do that by sweeping new health studies under the rug.”

Nanoparticles are extremely small particles that can permeate cell membranes and travel throughout the body, including into organs, in ways that larger ingredients cannot. The extremely small size of nanoparticles may result in greater toxicity for human health and the environment.

The shareholder proposal asks the company to issue a report about actions the company is taking to reduce or eliminate the risk of nanoparticles.

In 2014, Dunkin’ Donuts reached an agreement with As You Sow to remove the nanoparticle titanium dioxide from its donuts. Starbucks plans to remove it from all products by 2017, and Krispy Kreme is reformulating its products to exclude titanium dioxide and other nanoparticles.

To seemingly dismiss concerns about their brand infant formula appears to be an odd tactic for Walgreens. After all this is infant safety and it’s the kind of thing that makes people very, very angry. On the other hand, Friends of the Earth has not always been scrupulous in its presentation of ‘facts’ (see my Feb. 9, 2012 posting).

2016 hasn’t been a good year for Walgreens. In June they ended their high profile partnership with blood testing startup, Theranos. From a June 13, 2016 article by Abigail Tracy for Vanity Fair,

After months of getting pummeled at the hands of regulators and the media over its questionable blood-testing technology, Theranos may have just been dealt its final blow. Walgreens, the main source of Theranos’s customers, has officially ended its partnership with the embattled biotech company, cutting off a critical revenue stream for founder Elizabeth Holmes’s once-promising start-up.

In a statement issued Sunday [June 12, 2016], the drugstore chain announced that it was terminating its nearly three-year-long relationship with the once $9 billion company and would immediately close all 40 Theranos-testing locations in its Arizona stores, The Wall Street Journal reports. Like so many in Silicon Valley, Walgreens fell victim to Holmes’s claims that Theranos’s technology, and its proprietary diagnostic product, Edison, would revolutionize blood testing and put its rivals, Laboratory Corporation of America and Quest Diagnostics, out of business. When it inked its deal with Holmes in 2013, Walgreens failed to properly vet the Edison technology, which was billed as being capable of conducting hundreds of diagnostics tests with just a few drops of blood.

You can read more about the Theranos situation in Tracy’s June 13, 2016 article and I have some details in a Sept. 2, 2016 posting where I feature the scandal and the proposed movie about Theranos (and other ‘science’ movies).

Getting back to Walgreens, you can find the As You Sow resolution here.

FOE, nano, and food: part two of three (the problem with research)

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The first part of this roughly six week food and nano ‘debate’ started off with the May 22, 2014 news item on Nanowerk announcing the Friends of the Earth (FOE) report ‘Way too little: Our Government’s failure to regulate nanomaterials in food and agriculture‘. Adding energy to FOE’s volley was a Mother Jones article written by Tom Philpott which had Dr. Andrew Maynard (Director of the University of Michigan’s Risk Science Center) replying decisively in an article published both on Nanowerk and on the Conversation.

Coincidentally or not, there were a couple of news items about ‘nano and food’ research efforts during the ‘debate’. A June 11, 2014 news item on Nanowerk highlights a Franco-German research project into the effects that nanomaterials have on the liver and the intestines while noting the scope of the task researchers face,

What mode of action do nanomaterials ingested via food have in liver and intestine? Which factors determine their toxicity? Due to the large number of different nanomaterials, it is hardly possible to test every one for its toxic properties. [emphasis mine] For this reason, specific properties for the classification of nanomaterials are to be examined within the scope of the Franco-German research project “SolNanoTox”, which began on 1 March 2014. The [German] Federal Institute for Risk Assessment (BfR) requires data on bioavailability for its assessment work, in particular on whether the solubility of nanomaterials has an influence on uptake and accumulation in certain organs, such as liver and intestine. “We want to find out in our tests whether the criterion ‘soluble or insoluble’ is a determining factor for uptake and toxicity of nanomaterials,” says BfR President Professor Dr. Andreas Hensel.

A June 13, 2014 German Federal Institute for Risk Assessment (BfR) press release, which originated the news item, details the research and the participating agencies,

A risk assessment of nanomaterials is hardly possible at the moment and involves a very high degree of uncertainty, as important toxicological data on their behaviour in tissue and cells are still missing. [emphasis mine] The German-French SolNanoTox research project examines which role the solubility of nanomaterials plays with regard to their accumulation and potential toxic properties. The project is to run for three and a half years during which the BfR will work closely with its French sister organisation ANSES. Other partners are the Institut des Sciences Chimiques de Rennes and Universität Leipzig. The German Research Foundation and French Agence Nationale de la Recherche (ANR) are funding the project.

The tasks of the BfR include in vitro tests (e.g. the investigation of the influence of the human gastrointestinal system) and analysis of biological samples with regard to the possible accumulation of nanomaterials. In addition to this, the BfR uses modern methods of mass spectrometry imaging to find out whether nanoparticles alter the structure of biomolecules, e.g. the structure of the lipids of the cellular membrane. So far, these important tests, which are necessary for assessing possible changes in DNA or cellular structures caused by nanomaterials in food, have not been conducted.

Metallic nanoparticles are to be studied (from the press release),

In the project, two fundamentally different types of nanoparticles are examined as representatives for others of their type: titanium dioxide as representative of water insoluble nanoparticles and aluminium as an example of nanomaterials which show a certain degree of water solubility after oxidation. [emphases mine] It is examined whether the degree of solubility influences the distribution of the nanomaterials in the body and whether soluble materials may possibly accumulate more in other organs than insoluble ones. The object is to establish whether there is a direct toxic effect of insoluble nanomaterials in general after oral uptake due to their small size.

Different innovative analytical methods are combined in the project with the aim to elucidate the behaviour of nanomaterials in tissue and their uptake into the cell. The main focus is on effects which can trigger genotoxic damage and inflammation. At first, the effects of both materials are examined in human cultures of intestinal and liver cells in an artificial environment (in vitro). In the following, it has to be verified by animal experimentation whether the observed effects can also occur in humans. This modus operandi allows to draw conclusions on effects and mode of action of orally ingested nanomaterials with different properties. The goal is to group nanomaterials on the basis of specific properties and to allocate the corresponding toxicological properties to these groups. Motivation for the project is the enormous number of nanomaterials with large differences in physicochemical properties. Toxicological tests cannot be conducted for all materials.

In the meantime, a June 19, 2014 news item on Azonano (also on EurekAlert but dated June 18, 2014) features some research into metallic nanoparticles in dietary supplement drinks,

Robert Reed [University of Arizona] and colleagues note that food and drink manufacturers use nanoparticles in and on their products for many reasons. In packaging, they can provide strength, control how much air gets in and out, and keep unwanted microbes at bay. As additives to food and drinks, they can prevent caking, deliver nutrients and prevent bacterial growth. But as nanoparticles increase in use, so do concerns over their health and environmental effects. Consumers might absorb some of these materials through their skin, and inhale and ingest them. What doesn’t get digested is passed in urine and feces to the sewage system. A handful of initial studies on nanomaterials suggest that they could be harmful, but Reed’s team wanted to take a closer look.

They tested the effects of eight commercial drinks containing nano-size metal or metal-like particles on human intestinal cells in the lab. The drinks changed the normal organization and decreased the number of microvilli, finger-like projections on the cells that help digest food. In humans, if such an effect occurs as the drinks pass through the gastrointestinal tract, these materials could lead to poor digestion or diarrhea, they say. The researchers’ analysis of sewage waste containing these particles suggests that much of the nanomaterials from these products are likely making their way back into surface water, where they could potentially cause health problems for aquatic life.

This piece is interesting for two reasons. First, the researchers don’t claim that metallic nanoparticles cause digestion or diarrhea due to any action in the gastrointestinal tract. They studied the impact that metallic nanoparticles in supplementary drinks had on cells (in vitro testing) from the gastrointestinal tract. Based on what they observed in the laboratory, “… these materials could lead to poor digestion or diarrhea… .” The researchers also suggest a problem could occur as these materials enter surface water in increasing quantities.

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

Supplement Drinks and Assessment of Their Potential Interactions after Ingestion by Robert B. Reed, James J. Faust, Yu Yang, Kyle Doudrick, David G. Capco, Kiril Hristovski, and Paul Westerhoff. ACS Sustainable Chem. Eng., 2014, 2 (7), pp 1616–1624 DOI: 10.1021/sc500108m Publication Date (Web): June 2, 2014

Copyright © 2014 American Chemical Society

With Paul Westerhoff as one of the authors and the reference to metallic nanoparticles entering water supplies, I’m guessing that this research is associated with the LCnano (lifecycle nano) project headquartered at Arizona State university (April 8, 2014 posting).

Getting back to the Franco-German SolNanoTox project, scientists do not know what happens when the cells in your intestines, liver, etc. encounter metallic or other nanoparticles, some of which may be naturally occurring. It should also be noted that we have likely been ingesting metallic nanoparticles for quite some time. After all, anyone who has used silver cutlery has ingested some silver nanoparticles.

There are many, many questions to be asked and answered with regard to nanomaterials in our foods.  Here are a few of mine:

  • How many metallic and other nanoparticles did we ingest before the advent of ‘nanomaterials in food’?
  • What is the biopersistence of naturally occurring and engineered metallic and other nanoparticles in the body?
  • Is there an acceptable dose versus a fatal dose? (Note: There’s naturally occurring formaldehyde in pears as per my May 19, 2014 post about doses, poisons, and the Sense about Science group’s campaign/book, Making Sense of Chemical Stories.)
  • What happens as the metallic and other engineered nanoparticles are added to food and drink and eventually enter our water, air, and soil?

Returning to the ‘debate’, a July 11, 2014 article by Sarah Shemkus for a sponsored section in the UK’s Guardian newspaper highlights an initiative taken by an environmental organization, As You Sow, concerning titanium dioxide in Dunkin’ Donuts’ products (Note: A link has been removed),

The activists at environmental nonprofit As You Sow want you to take another look at your breakfast doughnut. The organization recently filed a shareholder resolution asking Dunkin’ Brands, the parent company of Dunkin’ Donuts, to identify products that may contain nanomaterials and to prepare a report assessing the risks of using these substances in foods.

Their resolution received a fair amount of support: at the company’s annual general meeting in May, 18.7% of shareholders, representing $547m in investment, voted for it. Danielle Fugere, As You Sow’s president, claims that it was the first such resolution to ever receive a vote. Though it did not pass, she says that she is encouraged by the support it received.

“That’s a substantial number of votes in favor, especially for a first-time resolution,” she says.

The measure was driven by recent testing sponsored by As You Sow, which found nanoparticles of titanium dioxide in the powdered sugar that coats some of the donut chain’s products. [emphasis mine] An additive widely used to boost whiteness in products from toothpaste to plastic, microscopic titanium dioxide has not been conclusively proven unsafe for human consumption. Then again, As You Sow contends, there also isn’t proof that it is harmless.

“Until a company can demonstrate the use of nanomaterials is safe, we’re asking companies either to not use them or to provide labels,” says Fugere. “It would make more sense to understand these materials before putting them in our food.”

As You Sow is currently having 16 more foods tested. The result should be available later this summer, Fugere says.

I wonder if As You Sow will address the question of whether the nanoscale titanium dioxide they find indicates that nanoscale particles are being deliberately added or whether the particles are the inadvertent consequence of the production process. That said, I find it hard to believe no one in the food industry is using engineered nanoscale additives as they claim  (the other strategy is to offer a nonanswer) in Shemkus’ article (Note: Links have been removed).,

In a statement, Dunkin’ Donuts argues that the titanium dioxide identified by As You Sow does not qualify as a nanomaterial according to European Union rules or draft US Food and Drug Administration regulations. The company also points out that there is no agreed-upon standard method for identifying nanoparticles in food.

In 2008, As You Sow filed nanomaterial labeling resolutions with McDonald’s and Kraft Foods. In response, McDonald’s released a statement declaring that it does not support the use of nanomaterials in its food, packaging or toys. Kraft responded that it would make sure to address health and safety concerns before ever using nanomaterials in its products.

While Shemkus’ article appears in the Guardian’s Food Hub which is sponsored by the Irish Food Board, this article manages to avoid the pitfalls found in Philpott’s nonsponsored article.

Coming next: the US Food and Drug Administration Guidance issued five weeks after the FOE kicks off the ‘nano and food’ debate in May 2014 with its ‘Way too little: Our Government’s failure to regulate nanomaterials in food and agriculture‘ report.

Part one (an FOE report is published)

Part three (final guidance)

Crowdfunding nanotoxicology research and determining the results in advance

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A Feb. 7, 2013 news item on Nanowerk highlights an initiative by a not-for-profit agency, As You Sow, to crowdfund nanotoxicology research (Note: Links have been removed),

“Slipping Through the Cracks: An Issue Brief on Nanomaterials in Food” was released yesterday by As You Sow, a nonprofit organization that promotes corporate responsibility and environmental health. The brief includes results of a survey of 2,500 food companies about their use of nanomaterials in food products, as well as laboratory results showing titanium dioxide (TiO2) nanoparticles in the white powdered sugar that coats Dunkin’ Donuts Powdered Cake Donuts and Hostess Donettes.

Intent on testing more common food products, As You Sow has simultaneously launched a crowdfunding campaign on Indiegogo. “We plan to raise enough money to test M&M’s, Pop-Tarts, and Trident gum for nanomaterials,” said As You Sow CEO Andrew Behar.

The organization’s Slipping Through the Cracks: An Issue Brief on Nanomaterials in Foods can be found here. Clicking on the publication’s  Download the report (PDF) link produces a form which needs to be filled out prior to receiving it.  From the ‘Slipping Through the Cracks’  webpage,

Slipping Through the Cracks is designed to inform companies, investors, and consumers about the emerging use of engineered nanomaterials in food and food related products. It highlights the potential risks of nanotechnology for companies who are knowingly or unknowingly using it in their products and for public health.

As You Sow and other leading investors surveyed 25,000 food manufacturers and tested a range of popular donuts; the results of both inquiries proved that nanomaterials are currently being used in food products. [emphases mine]

The terminology “leading investors” is an interesting choice. Is that because activist or civil society member is considered more pejorative? From the As You Sow About Us page (Note: Links have been removed),

Founded in 1992, As You Sow promotes environmental and social corporate responsibility through shareholder advocacy, coalition building, and innovative legal strategies. Our efforts create large-scale systemic change by establishing sustainable and equitable corporate practices.

As You Sow was founded on the belief that many environmental and human rights issues can be resolved by increased corporate responsibility. As investor representatives, we communicate directly with corporate executives to collaboratively develop and implement business models that reduce risk, benefit brand reputation, and protect long term shareholder value while simultaneously bringing about positive change for the environment and human rights.

How does this work and from where do they get their funding? It’s hard to imagine an investor in IBM or Proctor & Gamble or Facebook or Monsanto or … contacting these folks and asking them to ensure corporate social responsibility and investigate nanomaterials in food. Alternatively, which food or other type of company asked them to check for nanomaterials in donuts? The whole endeavour does seems a bit odd.

In any event, As You Sow’s Feb. 6, 2013 news release about the Indiegogo campaign makes some largely unexceptional comments,

Nanomaterials have been heralded as having the potential to revolutionize the food industry – from enabling production of creamy liquids that contain no fat, to enhancing flavors, improving supplement delivery, providing brighter colors, keeping food fresh longer, or indicating when it spoils. Yet few, if any, studies adequately demonstrate the safety of nanoparticles in food. In fact, scientists are still investigating how nanoparticles will react in the body and what testing methodologies are appropriate to determine this.

“There has been a lot of buzz about the potential for nanomaterials in food, but very little information about the risks to public health,” said Danielle Fugere, As You Sow President and co‐author of the brief. “Much deeper scientific inquiry is needed to prove nanomaterials are safe before they continue to be sold commercially.” [emphasis mine]

“Deeper scientific inquiry” sounds like an excellent idea unfortunately the folks at As You Sow seem to believe that the ‘scientific inquiry’ finding proof of a predetermined outcome, from the Protect Kids from Nanomaterials in Sweets crowdfunding campaign page on Indiegogo,

Kid-friendly foods like M&Ms & Pop-Tarts may contain dangerous nanoparticles, which we found in Dunkin Donuts. Help us test more foods & keep your family safe.

As You Sow found nanomaterials in Dunkin Donuts as noted in their Feb. 6, 2013 news release. Strangely that news release does not contain any information about research proving that the nano titanium dioxide on the donuts is dangerous to anyone’s health. There is not a single piece of research or expert cited. This seems less like a scientific inquiry and more like pseudo-science. The fact that there are some dangerous nanomaterials means that all nanomaterials are dangerous and and, if upon testing, any nanomaterials are found in a foodstuff that means the foodstuff is dangerous to our health.

From a semiotic perspective, there’s a wealth of imagery and signification to work with, far too much for this post.

Shockingly, this group has raised almost 25% of the funds they’ve requested with 33 days left in the campaign.