EDF Health

Should we be holding our breath waiting for more information on risks of the chemical spilled in West Virginia?

Richard Denison, Ph.D., is a Senior Scientist.

A hearing held yesterday by the West Virginia Legislature’s Joint Legislative Oversight Commission on State Water Resources created quite a stir, when a witness – West Virginia Environmental Quality Board vice-chairman Scott Simonton – said that the human carcinogen formaldehyde had been detected in several water samples drawn from a Charleston, WV, restaurant, and that people in the area affected by the January 9 spill could be expected to have inhaled the chemical, which he identified as a likely breakdown product of the spilled material, crude MCHM.  See stories in the Charleston Gazette and USA Today.

State officials and the West Virginia American Water company were quick to call Simonton’s claims “unfounded” and “misleading and irresponsible,” respectively.  The controversy led even the American Chemistry Council – which has laid low ever since the spill – to quickly issue its first statement related to the spill through its Formaldehyde Panel.

While experts are noting that data are insufficient to identify the spill as the source of any formaldehyde detected in the water samples, this new kerfuffle does point to yet another major data gap on crude MCHM.

The one part-per-million (1 ppm) “safe” level state and federal officials set was based on limited data from studies in which rats were exposed to crude or pure MCHM through oral ingestionAbsolutely no data are available on the chemical with respect to exposure through inhalation.  Yet officials did not hesitate to tell residents the 1 ppm level would be safe not only for drinking the water, but also for bathing and showering.

(It’s curious that the Eastman Chemical Company apparently performed no inhalation studies on crude or pure MCHM, given that Eastman said its motivation for the studies it did perform was to understand risks to workers in industrial settings, and its safety data sheet for crude MCHM prominently notes the potential for health concerns for workers from inhalation.)

[UPDATE 1/31/14:  This morning, Eastman posted an updated version of its Q&A document on its website (linked to in the above paragraph), and took down the earlier version.  Here is the original version, the updated version dated 1/31/14, and a redline comparison of the two versions.]

Clearly the material that spilled is volatile – that’s why people can smell it.  Taking a hot shower in such water means that people would clearly be exposed via inhalation of the vapor; how much exposure would occur has not been ascertained.  But in the absence of any data as to toxicity of the chemical via inhalation, there is simply no scientific basis on which to say or imply that showering in water contaminated at 1 ppm level was OK.

Chemicals can be more or less toxic by inhalation than by ingestion, with one study finding inhalation to be the more toxic route for half of the chemicals examined and oral ingestion to be the more toxic route for the other half.  Benzene, for example, is estimated to be several hundred times more toxic by inhalation than by ingestion, while inhalation of chloroform is estimated to be about 25-fold lower in toxicity than it is by ingestion.

What such comparisons indicate is that extrapolating from data on oral toxicity to predict inhalation toxicity – which is effectively what government officials did in this case – is about as accurate as flipping a coin.

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Getting the data on chemicals is just the beginning

Jennifer McPartland, Ph.D., is a Health Scientist.

Common sense tells us it’s impossible to evaluate the safety of a chemical without any data. We’ve repeatedly highlighted the scarcity of information available on the safety of chemicals found all around us (see for example, here and here).  Much of this problem can be attributed to our broken chemicals law, the Toxic Substances Control Act of 1976 (TSCA).

But even for those chemicals that have been studied, sometimes for decades, like formaldehyde and phthalates, debate persists about what the scientific data tell us about their specific hazards and risks.  Obtaining data on a chemical is clearly a necessary step for its evaluation, but interpreting and drawing conclusions from the data are equally critical steps – and arguably even more complicated and controversial. 

How should we evaluate the quality of data in a study? How should we compare data from one study relative to other studies? How should we handle discordant results across similar studies?  How should we integrate data across different study designs (e.g., a human epidemiological study and a fruit fly study)? These are just a few examples of key questions that must be grappled with when determining the toxicity or risks of a chemical.  And they lie at the heart of the controversy and criticism surrounding chemical assessment programs such as EPA’s Integrated Risk Information System (IRIS). 

Recently, a number of efforts have been made to systematize the process of study evaluation, with the goal of creating a standardized approach for unbiased and objective identification, evaluation, and integration of available data on a chemical.  These approaches go by the name of systematic review

Groups like the National Toxicology Program’s Office of Health Assessment and Translation (OHAT) and the UCSF-led Navigation Guide collaboration have been working to adapt systematic review methodologies from the medical field for application to environmental chemicals.  IRIS has also begun an effort to integrate systematic review into its human health assessments. 

Recently a paper in Environmental Health Perspectives (EHP) by Krauth et al. systematically identified and reviewed tools currently in use to evaluate the quality of toxicology studies conducted in laboratory animals.  The authors found significant variability across the tools; this finding has significant consequences when reviewing the evidence for chemical hazard or risk, as we pointed out in our subsequent commentary (“A Valuable Contribution toward Adopting Systematic Review in Environmental Health,” Dec 2013). 

EDF applauds these and other efforts to adopt systematic review in the evaluation of chemical safety.  Further elaboration of EDF’s perspective on systematic review can be found here

 

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“Epic fail” in West Virginia chemical spill: Poor information, poor communications, poor decisions

Richard Denison, Ph.D., is a Senior Scientist.

[UPDATE 1/28/14:  See updates at several places in this post regarding a 2011 Eastman safety data sheet on crude MCHM – which, though more recent than the 2005 version initally circulated, still does not reference the additional oral toxicity studies conducted by Eastman in the 1990s.]

Little more than two weeks after the January 9, 2014, spill of multiple chemicals into West Virginia’s Elk River, it’s becoming increasingly clear that the private and public sectors at all levels failed miserably with regard to protecting the public’s health.  There is plenty of blame to go around.

Our focus in the blogging we’ve done about this terrible incident has been and remains on the lack of reliable information available on the chemicals involved in the spill, the failure to promptly share what was available with the public, and the shaky science upon which decisions and public communications as to the critical safety questions were based.  In this post, I revisit several aspects of the initial and ongoing information gaps to add some additional perspective. 

I discuss in some detail below two major problems that I believe demand close examination in the Chemical Safety Board’s and others’ investigations into the causes and consequences of the spill:

  1. State and federal officials appear to have initially relied on Eastman Chemical Company’s incomplete and out-of-date Material Safety Data Sheet (MSDS) on “crude MCHM,” and as a result sowed confusion from the outset that has led to widespread public mistrust.
  2. Those same officials appear to have accepted without scrutiny the adequacy, accuracy and relevance of Eastman’s additional toxicity studies of MCHM, based only on summaries of those studies when they were finally provided by Eastman.

I end by briefly describing some of the implications of this tragic incident that need to be addressed going forward.

One caveat:  Because information on this incident has emerged in a piecemeal and haphazard manner, I cannot vouch for the accuracy of every detail provided in this post.  I have strived to the best of my ability to accurately describe the sequence and nature of events based on the available information.  Read More »

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Another new wrinkle on the “new” mystery chemical in West Virginia spill

Richard Denison, Ph.D., is a Senior Scientist.

Well, this story is rapidly evolving!  Even since my last blog post this morning, new information has come to light as to the identity of the “new” chemical that was present in the leaking tank that led to contamination of the drinking water in Charleston, WV.

The Charleston Gazette has now reported that Freedom Industries, the owner of the leaking tank, has told government officials that the “new” chemical is actually a mixture of two chemical products, both of them made by The Dow Chemical Company.  One of those is in fact the “DOWANOLTM PPh Glycol Ether” I discussed in my last post.  The second is a closely related Dow product called “DOWANOLTM DiPPh Glycol Ether.”   (These links are to Dow’s Material Safety Data Sheets (MSDSs) for the two products.)

The first product consists almost entirely (>99.5%) of propylene glycol phenyl ether (CAS no. 770-35-4).  The second is a mixture (see its MSDS), the main component of which (≥60%) is di-propylene glycol phenyl ether (CAS no. 51730-94-0) – a closely related chemical.

My earlier post indicated that a Dow contact had told me this morning it does not make a “stripped” version of its PPh product, and hence did not believe it was the supplier of the material to Freedom Industries.  As I noted in that post, use of the “stripped” designation to describe the “proprietary” chemical listed in the MSDS supplied yesterday by Freedom Industries for the “new” chemical had suggested the substance had somehow been further distilled.

But the latest article in the Charleston Gazette helps to clarify the situation.  It cites State officials indicating that Freedom Industries’ “PPH, stripped” is in fact a mixture of the two Dow products.

Interestingly, the MSDSs for the two Dow products reference a considerably larger amount of toxicity data than does Freedom Industries’ MSDS.  It appears, therefore, that there may be more data for officials to go on to assess potential risks associated with this “new” chemical.

Dow’s Technical Data Sheet and Product Safety Assessment for DOWANOLTM PPh Glycol Ether” list several uses for the product, none of which appear to explain why Freedom Industries would have added the product to the tank of MCHM, which is used to wash coal.

There appear to be some disconnects between Dow’s knowledge of how its own chemicals are being used and by whom, and also between the intended uses of such chemicals and their actual use.  These disconnects point to flaws in our current chemical safety policies:  chemical manufacturers often don’t have a full picture of how their chemicals are actually used, and downstream users may not have a clear picture of which uses of a chemical are appropriate or not.

The number of lessons to be drawn from this West Virginia chemical spill appears to be growing by the day.

 

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Is this the mystery chemical in the WV spill?

Richard Denison, Ph.D., is a Senior Scientist.

[PLEASE SEE UPDATE TO THE INFORMATION BELOW IN MY MORE RECENT BLOG POST.]

I blogged last night that the Charleston Gazette had reported that a “new” chemical that was revealed to have been present in the tank in Charleston, WV, that began leaking into the Elk River on January 9 and contaminated the drinking water supply for 300,000 residents.

Two alert readers recognized the acronym “PPH” and the description of the chemical in Freedom Industries’ Material Safety Data Sheet (MSDS) for “PPH, stripped”, to which I had linked, and suggested the identity of the chemical might be a grade or form of propylene glycol phenyl ether (CAS no. 770-35-4).

I’ve not been able to find further references to or information on “PPH, stripped,” but with the help of those alert readers I have found information on what appears to be a similar but not identical product made by The Dow Chemical Company, under the trade name “DOWANOLTM PPh Glycol Ether” – see Dow’s Technical Data Sheet and its Product Safety Assessment.  Among the names Dow lists for its product are both “propylene glycol phenyl ether” and “PPh.” 

I’ve compared information available on the Dow and Freedom Industries products.  Physical-chemical properties are similar but not identical for the two materials.  For example, the boiling point for “PPH, stripped” is 247°C, and for DOWANOLTM it’s 241°C.  (This is consistent with the process of “stripping,” by which more volatile components of a mixture are distilled out, which would raise the boiling point of the remaining more concentrated higher molecular weight components of the mixture.)  The liquid densities of the two products also match:  1.06 grams per cubic centimeter.

Both products are indicated as being eye and skin irritants, but of low acute oral toxicity.

I contacted Dow this morning, and asked if the Freedom Industries’ “PPH, stripped” material was supplied by Dow or is the same material.  My Dow contact answered no to each question.  There are quite a few suppliers of this chemical globally.

[PLEASE SEE UPDATE TO THE ABOVE INFORMATION IN MY MORE RECENT BLOG POST.]

It thus appears likely that the “new” chemical in the West Virginia spill is a form of propylene glycol phenyl ether.  But questions remain as to who made the “stripped” version, who supplied it to Freedom Industries, why its specific chemical identity is being claimed proprietary, and what information beyond that in the company’s MSDS is available regarding its hazard properties.

 

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Yet another chemical identified as present in West Virginia chemical spill

Richard Denison, Ph.D., is a Senior Scientist.

Just when you thought this story couldn’t get any weirder or worse, it has just been revealed that another chemical substance was present alongside the crude MCHM mixture that leaked into the Elk River and contaminated the drinking water of 300,000 West Virginia residents.

A story published late today in the Charleston Gazette by Ken Ward, Jr., reports that the U.S. Environmental Protection Agency (EPA) has told officials that a chemical identified as “PPH, stripped” was present in the leaking tank at a level of 5.6%.  A Material Safety Data Sheet (MSDS) for the substance, provided by the Gazette, describes the substance as consisting of 100% “polyglycol ethers” – but withholds the substance’s specific chemical identity as “proprietary.”

And while the scant toxicity data provided on the substance in the MSDS suggest it has lower acute oral toxicity than the crude MCHM mixture – at least for what is called the “majority component” (suggesting that this substance, too, is a mixture) – the MSDS notes that “PPH, stripped” is a “serious eye irritant” and a skin irritant.

It has already been reported by the Charleston Gazette that some residents making hospital visits did so because of rashes or other skin irritation; other reports indicate eye irritation among residents as well.  It should be noted that the MSDS for crude MCHM reports that it is also a skin and eye irritant.

Some quick searches I’ve done tonight for “PPH” and “PPH, stripped” – including one using ChemIDPlus, a large chemical database maintained by the National Library of Medicine, have not yielded further information.

All this means yet more questions and more uncertainty for West Virginia residents.  A few:

– How did EPA learn of the presence of this new chemical in the spilled material?  So far, EPA’s not talking.

– Why did it take 12 days for this information to come out?  And then, not from the company, Freedom Industries, that owns and operates the leaking tank?

– Has this chemical been monitored for in the river and drinking water samples?  (Presumably not, since its presence was just revealed.)

– Who makes PPH, and will they now reveal its identity given the massive human exposure that has occurred?

– Or will EPA exercise its rarely used authority under the Toxic Substances Control Act (TSCA) to compel disclosure of the identity of PPH?  Section 14(a)(3) of TSCA provides that confidential business information “shall be disclosed if the [EPA] Administrator determines it necessary to protect health or the environment against an unreasonable risk of injury to health or the environment.”

Surely, this is such a case.

 

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