Must Read: Flame Retardant Chemicals in my Gatorade??

Gatorade Vending Machine

Gatorade Vending Machine (Photo credit: revtango)

The New York Times ran a great piece today detailing one 15-year-old’s battle to remove brominated vegetable oil — “BVO” — from soft drinks in the U.S. market.

Sarah Kavanaugh, an observant teen in Mississippi, noticed the ingredient on the label of a Gatorade bottle, and started asking questions about what BVO was. When she learned about the “long list of possible side effects, including neurological disorders and altered thyroid hormones,” she started an online petition on the citizen action site, Change.org, asking Gatorade to drop BVO as an ingredient: Gatorade: Don’t put flame retardant chemicals in sports drinks!

The Times reports that:

[A}bout 10 percent of drinks sold in the United States contain brominated vegetable oil, including Mountain Dew, also made by PepsiCo; Powerade, Fanta Orange and Fresca from Coca-Cola; and Squirt and Sunkist Peach Soda, made by the Dr Pepper Snapple Group.

The ingredient is added often to citrus drinks to help keep the fruit flavoring evenly distributed; without it, the flavoring would separate.

The Europeans and Japanese know better, so clearly there’s another way to solve the separation problem (I would bet it just costs a little more):

[T]he European Union has long banned the substance from foods, requiring use of other ingredients. Japan recently moved to do the same.

You may recall that one class of chemicals used as flame retardants are referred to broadly as “brominated” — this BVO additive is related, as the name suggests:

Brominated vegetable oil contains bromine, the element found in brominated flame retardants, used in things like upholstered furniture and children’s products. Research has found brominate[d] flame retardants building up in the body and breast milk, and animal and some human studies have linked them to neurological impairment, reduced fertility, changes in thyroid hormones and puberty at an earlier age.

Limited studies of the effects of brominated vegetable oil in animals and in humans found buildups of bromine in fatty tissues. Rats that ingested large quantities of the substance in their diets developed heart lesions.

The article further explains that food additive regulation is basically a joke. If a manufacturer can find an “independent” lab to certify that a chemical is safe for consumption, the company can use the chemical without even notifying the Food and Drug Administration (FDA):

A company can create a new additive, publish safety data about it on its Web site and pay a law firm or consulting firm to vet it to establish it as “generally recognized as safe” — without ever notifying the F.D.A.

The last time the specific issue of the safety and risks of BVO was studied was back in the 1970s, and the data remain extremely thin — and cover periods of up to four months only, while the current standard is that additives must be studied for two years.

A private association, the Flavor and Extract Manufacturers Association, which conducts studies on food safety that are then evaluated by the FDA, revoked the designation of BVO as “generally” safe in 1970. After a few more (inadequate) studies of the additive by the Association, the FDA permitted the additive to be used in food:

[FDA] asked the association to do studies on brominated vegetable oil in mice, rats, dogs and pigs. She said that the organization made “several submissions of safety data” to the F.D.A. while those studies were going on, roughly from 1971 to 1974.

“F.D.A. determined that the totality of evidence supported the safe use of B.V.O. in fruit-flavored beverages up to 15 parts per million,” Ms. El-Hinnawy wrote.

That ruling, made in 1977, was supposed to be interim, pending more studies, but 35 years later it is unchanged. “Any change in the interim status of B.V.O. would require an expenditure of F.D.A.’s limited resources, which is not a public health protection priority for the agency at this time,” Ms. El-Hinnawy wrote.

Meanwhile, no further testing has been done. While most people have limited exposure to brominated vegetable oil, an extensive article about it by Environmental Health News that ran in Scientific American last year found that video gamers and others who binge on sodas and other drinks containing the ingredient experience skin lesions, nerve disorders and memory loss.

We know a lot more about the health effects of brominated chemicals (pdf) now than we did in the 1970s, and a lot of what we know is not good, linking them to harms like lowered IQ and fertility that were unlikely to be measured by these studies.

Moreover, I would wonder about the safety of offspring of pregnant women who drink these chemicals in beverages — given the links found by a recent study between levels of a different brominated chemical, PBDE, in pregnant women and learning delays and attention problems in their children at the age of 7. Those kinds of impacts simply can’t be seen in studies that last months, rather than years.

And what about Gatorade or sports drinks consumption by children after sporting events? Thanks to a blistering investigation by the British Medical Journal earlier this year, we now know that the whole “sports drinks” argument about replenishing fluids is a corporate-sponsored myth, at least as pertains to everyone but the Olympic athlete-in-training.

Yet these companies aggressively market these products to children, as a summary of that study in The Atlantic explains:

Both GSK [GlaxoSmithKline, which sells a UK sports drink] and Gatorade have developed school outreach programs that further the case for sports drink consumption during exercise. Though the Institute of Medicine says that, in children, “Thirst and consumption of beverages at meals are adequate to maintain hydration,” studies either directly funded by or involving authors with financial ties to Gatorade make a major case for the need to promote hydration, claiming, for example, that “children are particularly likely to forget to drink unless reminded to do so.”

All this makes it particularly appropriate that a bright 15-year-old is leading the charge, though it’s upsetting to learn that the FDA is evidently not even monitoring the evidence.

Go sign her petition! I did. You might also join me in pondering why the FDA is allowing a harmful chemical to be 15-parts-per-million in our beverages, and how the whole food additive system needs a serious overhaul in the name of public safety.

And now that you know what bunk it all is, you can save both money and your health by drinking water (perhaps with a spritz of fresh, organic lime or lemon) in lieu of all those sugary sodas and “sports drinks.” Now that’s refreshing.

IMG_5659
Update:
Gatorade has agreed to drop BVO from its sports drinks! Score one for Ms. Kavanaugh and Change.org:
PepsiCo announced January 25 that it would reformulate Gatorade. It was responding to a petition circulated on Change.org by 15-year-old Sarah Kavanagh of Hattiesburg, Miss., and signed by more than 200,000 people. “I thought [the petition] might get a lot of support because no one wants to gulp down flame retardant, especially from a drink they associate with being healthy,” Kavanagh told the Hattiesburg American. “But with Gatorade being as big as they are, sometimes it was hard to know if we’d ever win. This is so, so awesome.”
Awesome, indeed.

The Healing Power of Fresh OJ (& the Industrial Chemistry in Store-Bought Juice)

Sometimes it’s the simplest things. Early last week, Maya had a runny nose and a case of the sniffles. So we bought some fresh (organic) oranges, washed and juiced ’em on our cheap-o hand-levered metal thing-gummy, which works pretty well.

You need about 5 or 6 oranges and 5 spare minutes to fill a coffee mug with fresh, delicious juice. But it’s so worth it. Maya’s sniffles vanished within a day.

In fact, the juice was so tasty that it reminded me of a story I saw a year or so back about what, exactly, is in commercial orange juice.

Funny thing. Turns out that oranges aren’t actually hanging on the trees all year long, waiting to be juiced and put into a container lined with a thin layer of plastic known to leach from acidic liquids (yeah, there’s that too — sorry…).

Because oranges are not in season year-round, the OJ companies store their juice in tanks. To keep it from spoiling in the tanks, they also take all the oxygen out of it. This has the unpleasant side effect of removing all the flavor and making it taste basically like sugar water. So before they sell it, they add back in a “flavor packet” of orange-derived stuff and chemicals to make it taste “Florida-fresh.” Here’s more:

In fact, “not from concentrate,” a.k.a pasteurized orange juice, is not more expensive than “from concentrate” because it is closer to fresh squeezed. Rather, it is because storing full strength pasteurized orange juice is more costly and elaborate than storing the space saving concentrate from which “from concentrate” is made. The technology of choice at the moment is aseptic storage, which involves stripping the juice of oxygen, a process known as “deaeration,” so it doesn’t oxidize in the million gallon tanks in which it can be kept for upwards of a year.

That’s why different brands of OJ taste different — they use a distinct signature “flavor packet” to distinguish themselves (as well as different mixes of orange varietals, as this explains):

For example, have you noticed that the OJ from MinuteMaid has a signature candy-orange flavor? In the US, manufacturers of these chemical packs emphasize high amounts of ethyl butyrate, a chemical in the fragrance of fresh squeezed orange juice that, juice companies have discovered, Americans favor this because it’s a flavor they associate with fresh, juicy oranges.

Yes, well, we’re all fools, really, if we think that the stuff in a box tastes anything like what comes fresh out of a juicer. It’s amazing what a little whiff of an orange-like odor can do to deceive the senses.

The FDA, predictably, says all of this is cool, because the flavor packs use essences derived from oranges. But one obvious question seems to be: what happens to the Vitamin C and other nutritional content from this process?

The flavor of oranges contains a ton of very healthy elements, as well as vitamins. Marion Nestle, food guru, in her tome What to Eat (pp. 276-277), notes that “Vitamin C is the most fragile of the nutrients and the one likely to show losses.”

She doesn’t really talk about this processing issue, but she does compare the nutrients in “fresh orange juice” with “orange juice from concentrate” (which has been pasteurized, dehydrated and frozen), and there is a loss of Vitamin C, as you might expect. While a fresh orange has 51 milligrams of Vitamin C, fresh orange juice (1/3 cup) has 50 milligrams, and orange juice from concentrate (also 1/3 cup) has only 39 milligrams, or a loss of 20 percent of nutritional value. And that’s not even looking, really, at the question of what other health benefits are lost and not recaptured by “flavor packs.”

Of course, just eating a piece of fruit is the best way to go, because that retains the fiber (and avoids the industrial food labs). When we juice, Maya inevitably asks to munch on slices of oranges. So that’s another, no-duh benefit of slow(er) food, prepared by us, from real ingredients. She makes the connection between the fruit and juice, and pushes the lever herself sometimes (ok, this happened, like, once, but still, it’s a good precedent).

I know a lot of kids drink juice all the time, and sure, it’s better than soda. But that’s not saying much — so this is yet another area where, at our house, we’ve decided to channel Nancy Reagan and just say no.

Unless faced with an illness and it’s fresh from us, we generally avoid juice, as I don’t want Maya thinking beverages need to be sweet. She drinks water and milk only, and seems to like it just fine. There’s a ton of sugar in juice, and not enough fiber to make it balance out. (We do make juice, kefir or yogurt into popsicles on occasion, on the theory that it’s less sugary and junky than actual ice cream. And it makes a nice sciency activity. And its fun and tasty. Etc.)

Remembering this little bit of information about de-oxygenation is enough to put me off juice more or less permanently. While I haven’t seen it covered, I wonder if a similar process is used for apple and grape juice, etc. If you know about this, or care to research it, please enlighten all of us. And then there’s always the arsenic in apple juice to worry about…

It’s really enough to make you fruity. Sniff.

###

Learn More:

Here’s the ABC News coverage of this issue, and here’s a book about OJ and its processing: Squeezed: What You Don’t Know About Orange Juice, by Alissa Hamilton.

Read more about natural healing remedies this week on Healthy Child, Healthy World, which is doing a blog round-up just in time for flu season!

Three Days to a Brand-New BPA-Free You

happy faceWhen I was in junior high school, I distinctly and embarrassingly recall being a little obsessed with a certain cheesy teen novella called “8 Days to a Brand-New You” — a romantic and moving make-over tale in which our geeky, bespectacled heroine becomes a total babe in eight short days (or something like that). You can see the appeal.

My friends are accusing me of always being the bearer of bad news, and it’s certainly a fair charge. But I also still cling firmly to the belief that it’s possible to make small and easy changes that will transform your life. Or at least improve things a little bit.

In the bad hair-day backstage video I did for the ANDERSON show, I mention that you can quickly and immediately see results in efforts to decrease levels of Bisphenol-A (BPA), a potent endocrine disrupting chemical that behaves like a hormone in the body and has been linked to reproductive health damage and other serious concerns.

How do I know this? Last year, researchers set out to pilot new research methods by doing a small, short study of 20 people in five families in the Bay Area, co-sponsored by the Breast Cancer Fund, an organization focused on prevention of breast cancer by identifying and eliminating links to toxins. The results were astonishing, as summarized here and below:

Participants ate their usual diet, followed by three days of fresh foods that were not canned or packaged in plastic, and then returned to their usual diet.

The researchers collected evening urine samples over eight days in January 2010 and categorized them as pre-intervention, intervention, or post-intervention samples.

Test results showed an average drop of 60 percent in BPA levels when study participants ate a diet that avoided contact with food packaging containing BPA, which is used to make polycarbonate plastics and in the lining of food cans.

Tests showed a 50 percent average drop in DEHP, a phthalate commonly added to some food containers and plastic wraps to increase flexibility.

People with the highest levels of BPA prior to the intervention dropped their levels of BPA by 76 percent, and for DEHP that gap dropped by a stunning 93 to 96 percent. Study participants were shocked by the dramatic results.

The key was to prepare fresh foods, and to reduce incidental use of plastic. Three days was all it took, because the body flushes BPA and DEHP quickly, and it stays out so long as we don’t reintroduce it.

Here are some simple tips to reduce these types of exposures:

1) Don’t eat from plastic where it can be avoided. For example, avoid plastic water bottles of all kinds, including baby bottles and sippy cups, plastic drip coffee makers (we use a stainless steel electric kettle and glass french press), and most canned foods, particularly for sweet, acidic, or fatty items (which, let’s face it, is basically everything).

2) Try to frequent restaurants where the food is fresh and to order items that are unlikely to have been frozen (because they’re often stored in plastic) or canned. Just ask what’s fresh — a decent waiter at a good restaurant will tell you, and it’s a good guide to what the chef is excited about anyway.

3) Don’t heat plastic in the microwave or dishwasher or use plastic utensils for cooking or eating.

4) Store food in glass and food-grade stainless steel (some options are identified here in the Kitchen Gear section, and in the comments here), and keep food well below the level of the lid to minimize contact, as they did in the study. Avoid plastic wrap, especially the cheap kind like they use at the deli counter, which is usually PVC, or, at home, use a bowl to keep it away from the food and check to make sure what you’re using is labeled “PVC-free.”

5) Avoid jarred baby food and ready-to-use formula for infants, as they likely have BPA or a potentially suspect BPA-substitute in the lid. Preparing fresh baby food and using dried formula powder from cans are safer choices whenever possible.

6) As this article from the Natural Resources Defense Council says “[d]on’t allow your children to have dental sealants made from BPA (or BADGE) applied to their teeth, and don’t have these sealants applied to your teeth while you are pregnant. Ask your dentist to provide BPA-free treatments.”

7) Refuse receipts whenever you can, and don’t let children handle them or paper money, which has BPA from receipts all over it.

8) Sadly, recycled paper products, like toilet paper and napkins, are also high in BPA, likely due to receipts in the recycling chain. I’m still wrestling with my conscience over this one, but for pregnant women in particular, avoiding all kinds of recycled paper is likely a good idea.

A few other thoughts:

1) While many sites recommend Tetra-paks, for the reasons I explain here, these just store food in a polyethylene layer of plastic, which poses basically the same level of risk as a water bottle (or even more risk for acidic foods given their tendency to leach chemicals from plastic). Confirming my hunch, some links to German studies demonstrating that Tetra-paks leach more estrogens than water bottles, as well as some additional facts about how they make these types of packages sterile that may contribute to this leaching process, are here.

2) There are some BPA-free canned foods on the market, including Eden brand beans (not tomatoes), Muir Glen canned tomatoes (not glass jars; the lids have BPA), and Native Forest coconut milk (this was on several Websites; for example, here, but is not on their site and is not labeled on the can, so I will confirm with the company and update this post; as a side issue, I just noticed that they do use fillers like guar gum, which may be hard to digest for some; you can also evidently make your own coconut milk from dried coconut).

3) In addition, a number of fish companies are reportedly using BPA-free cans, including Oregon’s Choice, Wild Planet, Vital Choice and Eco-fish.

4) A depressingly large number of brands still use BPA, as this helpful local co-op page demonstrates. Another list is here, as well as comments pointing out that toothpaste tubes also have BPA! (I’ll look into this a bit and report what I find.)

5) Stonyfield Farm yogurts are probably in better packaging, as the company really put its plastic supplier through some paces. It’s just too bad that the sugar levels in their yogurt for babies, toddlers and kids are so darn high.

5) When you can’t use fresh, frozen organic foods are likely safer on this front, but do check the small print on the packaging, as many frozen brands are organic “made in China” or in other places in which organic certification is, IMHO, at least suspect (more on this in a future post). Also, salt is often added to frozen veggies, which may be undesirable if you’re cooking for a child.

6) The issue with all BPA-free canned foods is, of course, the question of what they are using instead. About this, companies are remarkably tight-lipped, as I explore here. One exception to this rule is Eden foods, which comes right out and says their substitute is oleoresin, a mixture of pine sap from trees.

For this reason, I’ll use the Eden canned beans in a pinch, though I still prefer the far more toothsome texture of soaked dried beans. (A tip: getting a decent pressure-cooker really helps to make cooking beans a bearable use of time. It’s a staple item in an Indian kitchen for dal and the like, so we have one and use it almost daily.)

See, don’t you feel more babe-like already? What BPA self-improvement tips do you have? Please let me know!

Seeing Red: My Fruitless Search for a Chemical-Free Jar of Tomato Sauce

Tomato slices

All there is to thinking is seeing something noticeable which makes you see something you weren’t noticing which makes you see something that isn’t even visible.

Norman Maclean, A River Runs Through It and Other Stories

Baby’s got sauce, she’s got sauce, she’s got sauce. Your baby ain’t sweet like mine.

― G. Love and Special Sauce

About a month back, a commenter to the blog inquired about what we do for tomato sauce.  The answer then was: we use glass jars, not cans, and buy organic.

But that got me thinking. I knew that some baby food jars have or had Bisphenol-A (BPA) in the plastic lining under the lid, which is disturbing, to say the least. BPA has gained a real notoriety, of course, for acting like a hormone, or estrogen, in the body.

Yet substitutes for BPA in food packaging are also suspect, for at least two reasons: 1) Some of the substitutes are chemically similar and may even be more potent than BPA; and 2) because most types of plastic act like an estrogen, as a 2011 peer-reviewed study from Environmental Health Perspectives made clear in its startling conclusion:

Most plastic products release chemicals having EA [estrogenic activity].

They went on to explain that to properly test for EA, you have to use a wide range of solvents to mimic how liquids impact the materials:

Our data show that both more polar and less polar solvents should be used to extract chemicals from plastics because ….because plastic containers may hold either type of liquid or a liquid that is a mixture of more polar and less polar solvents (e.g., milk). When both…solvents are used, most newly purchased and unstressed plastic products release chemicals having reliably detectable EA, independent of the type of resin used in their manufacture, type of product, processing method, retail source, and whether the product had contents before testing.

Our data show that most monomers and additives that are used to make many commercially available plastic items exhibit EA. Even when a “barefoot” polymer (no additives) such as [polyethylene] PE or polyvinyl chloride does not exhibit EA, commercial resins and products from these polymers often release chemicals (almost certainly additives) having EA. [Emphasis added.]

Many factors, like exposure to heat and sunlight, impact the amount of estrogenic chemicals that leach into the food:

We found that exposure to one or more common-use stresses often increases the leaching of chemicals having EA. In fact, our data suggest that almost all commercially available plastic items would leach detectable amounts of chemicals having EA once such items are exposed to boiling water, sunlight (UV), and/or microwaving.

This is why, for example, when the Natural Resources Defense Council sued the Food and Drug Administration over BPA in food packaging, they also asked FDA to evaluate any industry substitutes for safety. (As you likely know, this spring the FDA kicked the can down the road on that one, so to speak, deciding inexplicably to wait until we’re all totally hormonal before it will ban BPA from food packaging.)

I’ve also read that packaging tomatoes is evidently a challenge given their acidity, so that even companies that go BPA-free on some things haven’t solved the tomato challenge. For example, here’s a quoted letter from Eden brand, which actually does have BPA-free can linings, on their jar lid linings:

Currently, we are told, there is no known viable alternative to BPA based epoxy coatings that provides the same level of corrosion resistance and is as safe. We continually push our cap suppliers to develop BPA free constructed caps that will deliver required corrosion resistance, shelf life, and safety.

After this all occurred to me, I started putting circles of wax paper under the lids of the sauce jars when I opened them, despite the fact that this is pretty much after-the-fact. Most lids already have some gloppy red stuff on them by the time you open them up, so really, whatever’s on that lid is basically also in the sauce. Still:

My Pyrrhic Gesture

I cut around the lid and screw it on, but really? To actually address the issue, right off the bat, I had three main questions –

  1. Are the lids on glass jars BPA-free or not?
  2. If not BPA, what are companies using? Polyvinyl chloride (PVC)? Fluorotelomers (PFOAs)?
  3. And what’s in Tetra paks, anyway (i.e., those square containers for some tomatoes, soup and the organic chicken stock we use)?

I also wanted to know, given its slippery properties and known use in fast food packaging, whether fluorotelemers (precursors to a biologically super-persistent chemical known as PFOAs; explained in this post about my abusive Teflon relationship) were being applied to keep it all slick-like.

On that last one, no one would say. No one would even reply to the question, which I found odd. (Someone with actual pull should look into this a little, IMHO.)

And the answers to the other questions, insofar as I was able to noodle them out, were unsettling, to say the least.

I wrote letters — at least twice — to every brand of organic jarred tomato sauce at my hyper-crunchy local market:

In addition, I wrote to Pomi, which is not organic but sold in Tetra-paks, and to Trader Joe’s (the specific questions I asked are at the bottom of the post).

Right away, it appeared that I was onto something, well, dicey. Typically when I ask a question, I get a response right away, but this time, the answers were few and far between. For a few companies, I didn’t even get an acknowledgement, which is just weird.

For example, I got crickets, despite multiple prompts, from: Trader Joe’s, Middle Earth Organics, and Pomi, and an auto-reply but no real answer from Walnut Acres. The rest of the responses, such as they are, are below.

1) Are the lids on glass jars BPA-free or not?

The short answer is: they are NOT.  The lining contains BPA, though some companies did explain that the BPA is under several layers of other types of plastic.

For example, the owner of Organicville, who nicely wrote me back personally, ferreted out this eventual answer from her supplier:

Caps for pasta sauce:

We make every effort to source packaging materials that do not contain potentially harmful chemicals. However, sometimes it can be difficult to do given what is available in the marketplace. The inside of our pasta sauce caps have two coats of sealer between the food and the metal of the cap. The first coating does have BPA present. The second protective sealant does not, which isolates the first coating from contact with the food product in the jar.

In addition, BPA migration is reduced by the following three points. 1. An additional protective vinyl base overcoat facing the food, which isolates the epoxy BPA containing coating. The coating containing BPA can never be in contact with the food. 2. The cap’s inner surface is separated from the food by an area of air/vacuum. 3. The surface area exposed to the food is substantially less for a twist cap than for other canned tomatoes for example.

Eden brand, which is one of the only brands that bothers to have non-BPA can linings, didn’t write me back at all, but has basically the same thing on its Web site:

Is the amber glass tomato jar lid BPA free?
A search for a lid for our glass jars again confirmed that ‘there’s no such thing as a perfect food package.’ Regardless, we found the best there is.
The inside of the twist caps has two coats of sealer between the food and the metal of the cap. The first applied coating has BPA present. The second protective sealant does not, isolating the first coating from contact with the jar’s contents.
Potential for migration of BPA is reduced by the following:

  1. An additional protective vinyl base overcoat facing the food, isolating the epoxy BPA containing coating. The coating containing BPA can never be in contact with the food.
  2. The cap’s inner surface is separated from the food by an area of air/vacuum.
  3. The surface area exposed to the food is substantially less for a twist cap than for canned goods. [Emphasis added.]

Sounds like these two have the same supplier, which made me wonder how many companies make jars that size, anyway.

Amy’s brand, which is supposed to be so family-friendly, was happy to brag about their new BPA-free can linings, but utterly ignored my questions about jar linings:

I’m so sorry so much time has passed before responding. Your query was passed along to us at Fortune Public Relations. I’ve attached the press release about the Amy’s non-BPA liners. The glass jars are not made with BPA. Unfortunately, I don’t have any specifics in regard to your other questions. 
Thanks so much for your interest in Amy’s and your concerns about BPA liners. We’re thrilled that Amy’s has moved all of its canned products to non-BPA liners. Let us know if there’s anything else we can do for you.

So, the glass jars lack BPA, which should be obvious, but nothing about the lids for the jars.

Note that Amy’s also ducked the question about what is being used as a substitute in the cans, which is also missing from their Website announcement:

We are pleased to announce that as of March 1, 2012, Amy’s has completely transitioned to cans using no BPA in the formulation of its liner. Even though BPA is omnipresent in the environment from a multitude of sources, testing levels on our canned products with the new liner are showing reduced BPA levels of less than 1 part per billion.

I wrote back to say that I was surprised that Amy’s would not tell me what was being used as a substitute in the cans. No response. A BPA-free can is likely good news. But I was as unimpressed by their approach to customer service as I am by their flavorless frozen hockey pucks “burritos.”

Muir Glen (owned by General Mills) also wouldn’t answer the questions, really. It actually took numerous deliberately annoying posts by me and my helpful pals to the company’s Facebook page, which is their only consumer contact point, on a sub-page they sent to digital Siberia, to get any answer at all. Here’s the saucy parts of that back-and-forth:

  • MG: Hi Laura – We recently completed our transition to a can liner made without BPA. The new liner is made of vinyl and does not contain phthalates. It is an approved liner and has been safely used in food products for years.
  • Me: Thanks so much for your answer. If it is vinyl, does it contain PVC or flourinated chemicals? Also, approved by whom please?
  • MG: To answer your questions, there are no harmful chemicals in the liner. The liner has been thoroughly tested and used as a food can lining for more than 20 years.
  • Me: Sorry, but that vague answer is not really responsive to my specific question. It’s not like the options for non-BPA lined cans are a secret — some companies use oleoresins, a more natural option, and other use layers of plastic. It’s strange to me that you wouldn’t be more forthcoming. Don’t you think that, as a consumer of your products, I deserve to know the details of the food I buy?
  • Others also helpfully chimed in: What is the name of the new chemical or chemicals you are now using in place of BPA?/ Interestingly, BPA had been thoroughly tested and has been used as a food can lining for decades as well. It is an interesting conundrum, wondering if the solution is better or worse than the problem. / Muir-Glen, can you be more specific and answer Laura’s question about the liner containing PVC and flourinated chemicals?
  • Me: Just learned Muir Glen is owned by General Mills. is that why they won’t answer my questions???
  • MG: Laura, The lining in our BPA-free cans has been safely used in food products for more than 20 years, and fully complies with U.S. Food and Drug Administration requirements. It’s a non-epoxy can that does not contain phthalates or any unsafe or unproven components. For competitive reasons we don’t disclose our exact packaging formulations. We recognize your detailed questions above, and apologize that we can’t answer every one of them, but this is as much information as we can provide.
  • Me: Thanks, at last, for some response. I do appreciate that. However, you also appear to recognize the inadequacy of this information from a consumer perspective. Your mere assurance that something is not “unsafe” or that it meets legal requirements (which I would assume it does!) is not enough information for me to evaluate the validity of your claims on safety, given that federal law STILL allows BPA (and other endocrine disrupting chemicals) in food packaging, and I don’t believe there’s a rule on PFOAs or PVC at all. [Note: I was wrong on PVCs, as below.] Furthermore, I really don’t see how answering my questions on what chemicals are NOT in the lining and what TYPE of lining is used could possibly be a competitiveness issue, given that I haven’t asked for any detail on chemical formulations and presumably, your competitors could merely buy one of your cans and analyze the contents of the lining. Lastly, your answer only addressed can linings, and I was actually MORE interested in glass jar lid linings, as I’ve avoided cans for years due to these concerns.

A got a whole lot o’ nothin’ after that. (I gather from these slides by Pomi that Muir Glen/General Mills is actually one of the only companies to have cracked the problem of a BPA-free lining for canned tomatoes, which may explain why they were so dodgy.)

Field Day did provide some specific answers, peppered with both good and bad news. This is a fairly thorough reply, but notably, no information on the substitutes, if any, in packaging listed here as BPA-free:

Regarding BPA in Field Day cans: 
The cans do contain trace amounts of BPA.  All containers supplied for our products have an internal enamel system on the body and container’s ends.  The internal enamel serves a dual purpose where it protects the product from the container as well as the container from the product.  All enamel systems are safe and approved by the U.S. Food and Drug Administration for product contact. 
As much as we would like to turn the switch off for BPA we must also be assured that we are offering a safer alternative. We are working hard to source out BPA Free packaging in every category. There are great replacements in some categories and we do use BPA Free packing on the Field Day items listed:
  • Organic Applesauce-BPA Free cups
  • Eco Friendly Baby Wipes-BPA Free tubs and packages
  • Organic Balsamic Vinegar-BPA Free caps
  • Organic Fruit Cups-BPA Free cups
  • Organic Maple Syrups-BPA Free jugs
  • Organic Easy Spread Peanut Butters-BPA Free jars
  • Italian Sparkling Mineral Water-BPA Free bottle
However, there is no single alternative replacement for BPA in all can linings. Each food product formulation has its own set of demands. For example, acidic foods present particular challenges that differ from other types of foods. Once a BPA replacement is identified, its performance must be tested over the shelf life of the particular food product for its safety and regulatory approval before it can be used.
Given the growing evidence and consumer concern about BPA’s impact on human health and the environment, Field Day is working closely with its current product suppliers to adopt BPA-free packaging where ever possible while maintaining Field Day’s high nutrition and quality standards. Our suppliers are working hard to source alternatives that are proven safe, effective, and are regulated appropriately. In fact, our olives and beans are now being tested in BPA Free can alternatives, and if results are favorable we may have a substitute in 2012 or 2013! Again, due to olives having a long shelf life the tests for alternative packaging must run as long to support that.
Field Day will identity BPA-free packaging on its product labels and customer website either when they become available or when they are switched over to BPA Free packaging. Field Day will continue to foster the natural product industry’s discussion of BPA concerns and alternative packaging options.[Emphasis added.]
 
Latimore Valley Farms not only didn’t answer, but pretended I was asking about whether the sauce was actually prepared in the jars (duh), and reassured me that no sauce touches the lid (see the above pics for how true that is).

Hi Laura,  We do a marinara sauce, tomato soup, barbeque sauce that contain tomatoes.  All products are in glass jars not metal.  We cook the product to a high temp in steam kettles and then put it in the jars and leave about one quarter of an inch down so the food is not in contact with the lid.  We do not cook the product in the jar.

My response: Hi, Thanks so much for this response, but it really doesn’t address the questions I asked. In terms of the jars you use, is there BPA or other endocrine disruptors — or PVC or flourotelemers, in the lining under the lid? Are these chemicals are in the jar is the question. All best, Laura

Radio silence.

The rotten tomato for all of us:

I would assume that jar lids for everything – drinks, honey, peanut butter, tomato sauce, you name it – has BPA in it, and if you’re lucky it’s down (or up!) a layer or two. (And of course most cans do as well, including soda, juice and beer cans.)

Given that not a single company that levels with the public said that they were BPA-free with regard to jarred tomatoes, and that consumer awareness hasn’t really caught on with regard to BPA concerns in jar lid linings (as opposed to cans), I think companies are hoping that this word doesn’t get out.

(As some confirmation, this article about the European Union rule banning BPA in baby bottles (effective last year) essentially says that what the plastics folks are really worried about is “an escalation of action into other packaging areas, such as epoxy-based coatings for metal packaging.” Perhaps that’s why in the U.S., the chemical and plastics industries last fall actually asked regulators to ban BPA in baby bottles here as well, in an attempt to head off their PR problem.)

Back to tomatoes: I suppose it’s possible that some jar lids for less acidic foods than tomatoes don’t have BPA, but no one said so, even the companies with lots of products in addition to tomato sauce. To do this, companies would have to source BPA-free jars and non-BPA free jars for different foods, which would likely raise expenses.

I would bet, based on these answers, that most companies have not even bothered to try to obtain BPA-free lids for jars in the absence of any regulation or public information to the contrary.

2) If not BPA, what are companies using?

Since companies ARE still using BPA in jar lids, you’d think this one would be simple. But in asking these questions, I stumbled upon another problem: the layers of plastic that enclose BPA in the lid are likely to be made of vinyl, a known carcinogen. Here’s more on that from the refreshingly helpful, candid owner of Organicville:

Yes, part of the pasta cap is PVC-based, no phthalates are present though.

Yup, “PVC-based.” And the other suppliers I quoted above also ALL mention vinyl when we do get any detail about what’s in the lid. Actually, this article helpfully lays out the four current possibilities for BPA substitutes:

There are currently four generally recognized alternatives including vinyl, acrylic, polyester and oleoresins.

Gee, three of those sound like holdovers from a super-fly 1970s wardrobe of unbreathable fabrics. No wonder companies don’t want to say. Some polyester in your soup, anyone?

Oleoresin is the only one that doesn’t seem utterly revolting to have near food and appears to be relatively safe on my initial review. It must work decently well, because Eden says, as to cans, that’s their BPA substitute:

Since April of 1999, EDEN beans have featured a custom made can lined with an oleoresinous c-enamel that does not contain the endocrine disrupter BPA. Oleoresin is a mixture of oil and resin extracted from plants such as pine or balsam fir.

As vinyl is the other liner that was mentioned for jar lids by the companies, that’s what I looked into next. I was shocked to learn that vinyl chloride is actually authorized for use in food packaging by the oh-so-on-it FDA:

The FDA is responsible for regulating vinyl chloride as an indirect food additive. With regard to components of coatings, paper, and paperboard, the FDA states that when vinyl chloride is copolymerized with certain other substances, it is a safe food-contact surface.

In contrast, here’s what the government’s own toxicology report says about vinyl chloride:

  • The International Agency for Research on Cancer (IARC), ranks vinyl chloride as a Class A carcinogen;
  • The American Conference of Government Industrial Hygienists calls it a “confirmed human carcinogen;”
  • And “[v]inyl chloride is a known human carcinogen by the inhalation route of exposure, based on human epidemiological data, and by analogy the oral route because of positive animal bioassay data as well as pharmacokinetic data allowing dose extrapolation across routes. Vinyl chloride is also considered highly likely to be carcinogenic by the dermal route because it is well absorbed and acts systemically (EPA 1996).” [Emphasis added.]

My translation: Vinyl causes cancer if you eat it.

And this 2010 Report for the President’s Cancer Panel called “Reducing Environmental Cancer Risk” states that vinyl chloride has a “strong” causal link to liver cancer and soft tissue sarcoma.

Vinyl chloride has also been banned for use in aerosol pharmaceuticals:

Vinyl chloride: All aerosol drug products containing vinyl chloride. The inhalation of vinyl chloride is associated with acute toxicity manifested by dizziness, headache, disorientation, and unconsciousness.

So, in addition to BPA, we all may be eating from food packaged in vinyl or another plastic right above the sauce – some of which, unlike Organicville’s, could also have harmful pthalates (softeners, like DEHP) in it as well.

And vinyl (the PVC form, as here) is specifically flagged in the research way back up at the top of this post as generating estrogenic activity, so we may be covering up BPA with other estrogenic plastics.

PVC, or vinyl, is the same stuff we have been told by environmental groups to avoid in our shower curtains and liners, for example, and has that awful acrid smell when you open the package on those kinds of products. Mmm, that goes well with garlic.

The other rotten tomato for all of us:

Vinyl. In our food.

Most ironically, if companies are trading out BPA for a layer of vinyl, we may be worse off than we were before.

3) OMG. What about Tetra-paks? Will you take those from me too?

The good news is that it appears to be true that Tetra-paks are BPA-free.

The bad news on Tetra-paks is that, at least for tomatoes, I didn’t see an organic option.  And that, sorry to say, the packaging has aluminum, several layers in, and the inner layer is made of polyethylene plastic, according to this helpful presentation from Pomi’s Web site.

Dealing with the layers in turn: 1) Aluminum is certainly a suspect metal, particularly with higher levels of exposure, such as for workers, and in children. But it’s evidently not in contact with the food. 2) I asked Pomi about whether the polyethylene was treated with anything, and got no answer at all.

Polyethylene (PE or PET) is identified by a “1” and is typically considered one of the safer plastics: it’s what most water bottles are made of, for example.

Unfortunately, I did find several health concerns that have been identified – one recent review of many other studies finding endocrine disrupting effects from leaching in PET bottles, for example. The study found that the amount of leaching depended on whether the bottles were subjected to heat, for example, as well as their age.

It stands to reason that, if tomatoes are really that good at breaking down chemicals, there may be far more plastic-related chemicals in the sauce for those packages than there are for water, for example.

Side investigation: Are milk-boxes safe?

I also got curious about the smaller Tetra-paks that we very occasionally give Maya containing Horizon organic milk. (As a side note, it used to completely frost me that they market sugary milk, in chocolate, vanilla and strawberry flavors, as convenience food to children, who don’t need added sugar in anything. Most Starbucks don’t even stock the plain milk, which is so incredibly annoying when you’re out and about with a child you really don’t need to be any more hyper. But it’s actually far worse than that, as you’ll see.)

The Horizon rep, whom I spoke with on the phone, confirmed information similar to the above. Their Tetra-pak contains:

  • 70% paper;
  • 6% aluminum;
  • 24% polyethylene (the innermost layer; no additives).

She clarified that the aluminum does not contact the milk. Of course, the milk is basically encased in polyethylene, which, as noted in the quotes way up at the top, can leach estrogenic chemicals even without additives.

That got me thinking about regular milk cartons. After being prompted by a comment, I called Horizon back and learned that even their regular big milk cartons have a layer of polyethylene plastic on the inside, in contact with the milk. I guess it makes sense that it’s not going to work if it’s all cardboard, but I know I hadn’t focused on this issue at all until now.

So, even though its darn inconvenient and we have to pay a bottle deposit, we’ve now switched milks, once again, this time to the glass containers with organic, pasture-raised milk, which is only one brand sold by my local hyper-crunchy coop. It is delicious, and unlike most whole milk, which still has been centrifuged and has had fat removed, the cream and milk solids are still floating around in it. So that’s an upside, at least.

###

Conclusion:  In the Sauce, Indeed

As we all know too well, we’re swimming in plastic and so is our food.

Following this little adventure into food packaging, here’s what I know and don’t know:

  • Eden brand uses BPA-free linings in cans (oleoresin); not tomato cans; not jar lids (It’s labeled on the cans I’ve seen, which is great);
  • Muir Glen (General Mills) uses BPA-free linings in some cans, including tomatoes; not jar lids (not sure if it’s labeled or what the BPA substitute is);
  • Amy’s now uses BPA-free linings in cans; not jar lids (no information on the BPA substitute or labeling);
  • Field Day has some items in BPA-free packaging, as above (no infomation on substitutes; not sure what’s labeled);
  • Basically all jar lids still have BPA in them, though it may be under a layer of vinyl, raising separate concerns about both cancer and estrogenic activity;
  • Tetrapaks are another form of a plastic bottle, basically, and while they may be safer, they raise the same issues as any other plastic bottle, except for acidic foods like tomatoes there may be more leaching.

In sum, on the tomato sauce question, what I take from this is that it would be really hard to know without a specific comparison by a bio-chemist whether the small amount of BPA and exposed vinyl in jar lids from glass jars are more or less safe than non-organic tomatoes from a polyethylene-lined, aluminum-based Tetra-pak. And all of these linings are suspected of being estrogenic.

Basically, in the face of no good options at all, I am going to try to make my own fresh tomato sauce or pesto whenever I can. And to see if I can find some Weck jars without any plastic-y surface under the lid and maybe even try my hand at canning fresh ones.

Or in a pinch, I’ll buy the jarred stuff from Organicville, just because she was a human being and straight with me.

In the meantime, we should all talk up this issue of the need for JAR LIDS – and not just cans – that are BPA-free. The Pomi slides, and this industry analysis, both make clear that the major trade-offs for the food packaging and food companies for substitutes for BPA are two:

  1. Cost of the packaging (increased by between 3 cents and 13 cents per can);
  2. Shelf-life (lowered to 18 months).

These are really unbelievably petty concerns in the face of the hormonal onslaught their plastic containers are exposing us all to.

Beverage containers, cans and jars should all be free of BPA-type plastics AND vinyl, and the industry should be required to switch to oleoresins or find other safe, non-plastic options.

If this reduces shelf life, that really seems a small price to pay. We all have too much junk in our cupboards anyway.

And for companies like some of the baby-food ones, who have made a switch to BPA-free jars, we should make them tell us what they are using instead. If it’s acrylic or polyester, wouldn’t you like to know? I wouldn’t dress a baby in that, much less make her eat it…

Though why consumers have to, once again, do the job that should really be done by the FDA is beyond me. Only the government has the regulatory power to make companies do the right thing, and a decisive government rule would be far more fair — both to the marketplace, so that companies all face the same costs, and to consumers, so that we don’t need to become super-sleuths just to buy a stupid jar of tomatoes.

Remember what lead pipes did to the Romans? In point of fact, given our global economy, this is actually a species-level concern. Our food should be sold in safe containers. Really. If we can put people on the moon, I think we should be able to figure this one out.

###

My persnickety questions to companies:

Greetings,

I am a blogger at www.Laurasrules.org – who writes on environmental health matters and I am doing a post on tomato sauce. I have a few questions for you – the answers will be evaluated for transparency for consumers and completeness.

1)     Do cans sold by your company containing tomatoes, including sauces and chopped tomatoes, contain BPA in the lining?

2)     If not, what kind of lining material is used?

3)     Is such lining free of similar endocrine-disrupting chemicals? For example, is Bisphenol-S, Bisphenol-B, or Bisphenol-F used? Other endocrine disruptors and/or bisphenols?

4)     Is such lining free of poly-vinyl chloride (PVC)?

5)     Is such lining free of fluorotelemers, which are precursors to PFOAs and are used in food packaging?

6)     Do glass jars sold by your company containing tomatoes, including sauces and chopped tomatoes, contain BPA in the lid lining?

7)     If so, is it in contact with food or is there an intervening layer? If there is an intervening layer, what evidence is available about whether it leaches into the food?

8)     If not, what kind of lining material is used?

9)     Generally, is such lining free of other similar endocrine-disrupting chemicals? For example, is Bisphenol-S, Bisphenol-B, or Bisphenol-F used? Other endocrine disruptors and/or bisphenols?

10)  Is such lining free of poly-vinyl chloride (PVC)?

11)  Is such lining free of fluorotelemers, which are precursors to PFOAs and are used in food packaging?

Thank you for your time. I hope to be able to make recommendations to consumers based on this information.

Waiting for Supermom: The FDA’s Failure on BPA

Credit: Darren Higgins

Cross-posted from the Natural Resources Defense Council blog, On Earth, 4/18/2012.

When the New York Times ran a snarky story under a picture of my daughter, Maya, a few weeks ago describing my efforts to rid my home of toxic chemicals, you can bet the comments from readers were merciless. Readers accused me of trying to keep my child in a bubble and mocked me as yet another privileged, neurotic helicopter mom.

Truth be told, instead of a posh housewife, for years I was a cash-strapped public interest lawyer who roamed the halls of Congress with brokenhearted families after some federal agency had failed to protect them. I worked on the Ford-Firestone rollover tragedy and the discovery of lead in children’s toys from China, among other disasters for public health. So when I had my own child, it seemed important to think through the risks to her health for myself.

Still, the pointed comments got me thinking: are moms, and parents generally, bad or good at predicting risks to children? I’ve decided that while parents might not be perfect, we’re a good sight better than the Food and Drug Administration (FDA).

Contrary to stereotype, moms (and dads) are actually expert risk assessors. In fact, it’s no overstatement to say that risk assessment is a major part of the job. Parents constantly measure both the benefits and risks to their child, of say, crossing the street, eating that suspect ball-park hot dog, going to summer camp, or even, as at my house, playing on our splinter-filled back deck (allowed, but shoes required).

On the other hand, we have the FDA. Eleven states, and at least eight countries, including Canada, China, and the European Union, have already banned Bisphenol-A — a dangerous chemical added to plastic food containers and can linings — in some or all products. Hoping to head off more comprehensive rules, the chemical industry in the U.S. even asked regulators last September for a ban on BPA in baby bottles and sippy cups.

Nonetheless, the FDA recently decided to keep exposing all of us to BPA, which shows up in the urine of 93 percent of Americans. This was a big step backward from the agency’s public position in 2010, which said that BPA was of “some concern” with regard to health impacts like early puberty and prostate cancer. That statement was based on a 2008 report from the National Toxicology Program, which concluded that there is “some concern for effects on the brain, behavior, and prostate gland in fetuses, infants, and children at current human exposures to bisphenol A.”

Four long years later (a period which included the birth of my daughter in 2010), the FDA’s disappointing decision to punt left in its wake a dizzying array of contradictory messages for the public on the safety of BPA. While FDA said that its recent decision was not a final determination and that it would continue to study the issue, the chemical industry’s flacks said the decision meant that BPA “is safe for use in food-contact materials.”

The Department of Health and Human Services, meanwhile, states that “[i]t is clear that the government… need[s] more research to better understand the potential human health effects of exposure to BPA, especially when it comes to the impact of BPA exposure on young children.” HHS also provides recommendations to parents about “minimizing BPA exposure,” including helpful information on BPA levels in various types of containers for infant formula and the advantages of breastfeeding. This is in marked contrast to the cursory, lame non-guidance from the FDA, which states “FDA is not recommending that families change the use of infant formula or foods.”

Really? No changes? It’s shocking that in the face of health concerns that even the government has acknowledged, FDA won’t provide a shred of guidance for pregnant women and parents about how to minimize exposure for their baby. How about the obvious: families should avoid baby bottles with BPA in them, ready-to-use formulas and baby foods with BPA in the lining of lids, and canned foods with a BPA lining. Or that pregnant women, like the one working the cash register at my local café last week, should avoid handling receipts and money, which have been shown to be covered in unbound BPA?

In the face of such indifference to the risks, I’ll just point out the clear superiority of parents as deciders. In fact, parents generally make balanced — and protective — choices, weighing both benefits and risks. Kids can’t and shouldn’t live in a bubble, sure, so parents do the best they can with the information that they have. But when they think about the downsides, they also make a very precise accounting, a moral and ethical accounting, you might say, that reflects the place in their heart occupied by their own child.

Parents everywhere take note: this kind of protective approach should also be the yardstick used by government when it assesses the risks to its citizens. When I worked on the Ford-Firestone rollover disaster, accompanying the mother of a dead 18-year-old boy to her senator’s office to argue for more protective auto safety rules, what she expressed most poignantly, besides the devastating impact of her loss, was her profound, tragic heartbreak that she “didn’t know” about this risk — that she “didn’t know” that the government would allow things to be sold that were unsafe — that she assumed, in fact, that government would view the life and health of her child in the same loving, protective way she did.

If only it were so. When the FDA and White House play politics with our health and lives, when regulators admit a chemical in our food supply is unsafe yet refuse to even offer adequate guidelines for parents to protect their babies and children, and when a potential threat to our health is so impossible to avoid, we need a new, and far better, ethic for assessing risks and the safety of families.

We should enact laws that require products to be proven to be safe before our children and families can be exposed. And in the case of FDA, we shouldn’t tolerate these ridiculous waiting games. The agency should meet its legal obligation to protect the public from chemicals that can reach our food supply and have not been proven to be safe. That would be a government that only a mother could love.