pthalates

If Food’s in Plastic, What’s in the Food?

Reference:  By Susan Freinkel on April 16, 201In a study published last year in the journal Environmental Health Perspectives, researchers put five San Francisco families on a three-day diet of food that hadn’t been in contact with plastic. When they compared urine samples before and after the diet, the scientists were stunned to see what a difference a few days could make: The participants’ levels of bisphenol A (BPA), which is used to harden polycarbonate plastic, plunged – by two-thirds, on average – while those of the phthalate DEHP, which imparts flexibility to plastics, dropped by more than half.The findings seemed to confirm what many experts suspected: Plastic food packaging is a major source of these potentially harmful chemicals, which most Americans harbor in their bodies. Other studies have shown phthalates (pronounced THAL-ates) passing into food from processing equipment and food-prep gloves, gaskets and seals on non-plastic containers, inks used on labels – which can permeate packaging – and even the plastic film used in agriculture.

The government has long known that tiny amounts of chemicals used to make plastics can sometimes migrate into food. The Food and Drug Administration regulates these migrants as “indirect food additives” and has approved more than 3,000 such chemicals for use in food-contact applications since 1958. It judges safety based on models that estimate how much of a given substance might end up on someone’s dinner plate. If the concentration is low enough (and when these substances occur in food, it is almost always in trace amounts), further safety testing isn’t required.

Meanwhile, however, scientists are beginning to piece together data about the ubiquity of chemicals in the food supply and the cumulative impact of chemicals at minute doses. What they’re finding has some health advocates worried.

This is “a huge issue, and no [regulator] is paying attention,” says Janet Nudelman, program and policy director at the Breast Cancer Fund, a nonprofit that focuses on the environmental causes of the disease. “It doesn’t make sense to regulate the safety of food and then put the food in an unsafe package.”

A complicated issue 

How common are these chemicals? Researchers have found traces of styrene, a likely carcinogen, in instant noodles sold in polystyrene cups. They’ve detected nonylphenol – an estrogen-mimicking chemical produced by the breakdown of antioxidants used in plastics – in apple juice and baby formula. They’ve found traces of other hormone-disrupting chemicals in various foods: fire retardants in butter, Teflon components in microwave popcorn, and dibutyltin – a heat stabilizer for polyvinyl chloride – in beer, margarine, mayonnaise, processed cheese and wine. They’ve found unidentified estrogenic substances leaching from plastic water bottles.

Is It Possible to Build a Safer Plastic Package?A growing number of companies are using “green chemistry” to create new polymers and additives without known hazards. But Mike Usey, CEO of a small Texas start-up called Plastipure, says there’s a simpler solution: Find the existing plastic resins and additives that don’t interfere with natural hormones. There are plenty out there, he says, but identifying them is complicated because one type of plastic can be formulated in many different ways, making some brands or grades safer than others.Plastipure was started in 2000 by George Bittner, a University of Texas neurobiologist who developed analytic methods to systematically recognize synthetic chemicals that are not estrogenically active, or “EA-free,” in the company parlance. They don’t, in other words, mimic estrogens naturally produced by the body. “We’ve taken thousands and thousands of tests on materials and chemicals and additives, so we know now what is commercially used that is EA-free and what is not,” says Usey. Their first product, released in 2008, was a water bottle they proclaimed to be entirely EA-free.

In 2011, Plastipure scientists published a study in which they tested some 500 plastic packages and products. Their results showed 92 percent were estrogenically active, even products that claimed to be BPA-free. Although the research was “obviously commercially motivated, I think they raised a very legitimate issue,” says Bill Pease, a toxicologist for GoodGuide, a group that rates the health and environmental safety of consumer products. In 2011, the National Science Foundation awarded Plastipure a $650,000 grant to further develop its EA-free technology.

But Usey says while consumers may like the idea of an EA-free plastic, it’s been a tough sell, even to well-meaning food companies. Despite interest, no one wants to be the first to adopt a new type of package. “Everybody wants … to be second,” he says with a sigh of frustration. “The companies’ first concern is liability – if we put something out that we say is safer, are we admitting what we did before is unsafe?”

Finding out which chemicals might have seeped into your groceries is nearly impossible, given the limited information collected and disclosed by regulators, the scientific challenges of this research and the secrecy of the food and packaging industries, which view their components as proprietary information. Although scientists are learning more about the pathways of these substances – and their potential effect on health – there is an enormous debate among scientists, policymakers and industry experts about what levels are safe.

The issue is complicated by questions about cumulative exposure, as Americans come into contact with multiple chemical-leaching products every day. Those questions are still unresolved, says Linda Birnbaum, director of the National Institute of Environmental Health Science, part of the National Institutes of Health. Still, she said, “we do know that if chemicals act by the same pathway that they will act in an additive manner” – meaning that a variety of chemicals ingested separately in very small doses may act on certain organ systems or tissues as if they were a single cumulative dose.

The American Chemistry Council says there is no cause for concern. “All materials intended for contact with food must meet stringent FDA safety requirements before they are allowed on the market,” says spokeswoman Kathryn Murray St. John. “Scientific experts review the full weight of all the evidence when making such safety determinations.”

Hard to measure

When it comes to food packaging and processing, among the most frequently studied agents are phthalates, a family of chemicals used in lubricants and solvents and to make polyvinyl chloride pliable. (PVC is used throughout the food processing and packaging industries for such things as tubing, conveyor belts, food-prep gloves and packaging.)

Because they are not chemically bonded to the plastic, phthalates can escape fairly easily. Some appear to do little harm, but animal studies and human epidemiological studies suggest that one phthalate, called DEHP, can interfere with testosterone during development. Studies have associated low-dose exposure to the chemical with male reproductive disorders, thyroid dysfunction and subtle behavioral changes.

But measuring the amount of phthalates that end up in food is notoriously difficult. Because these chemicals are ubiquitous, they contaminate equipment in even purportedly sterile labs.

In the first study of its kind in the United States, Kurunthachalam Kannan, a chemist at the New York State Department of Health, and Arnold Schecter, an environmental health specialist at the University of Texas Health Science Center, have devised a protocol to analyze 72 different grocery items for phthalates. Schecter won’t reveal the results before they’re published – later this year, he hopes – except to say he found DEHP in many of the samples tested.

Perhaps the most controversial chemical in food packaging is BPA, which is chiefly found in the epoxy lining of food cans and which mimics natural estrogen in the body. Many researchers have correlated low-dose exposures to BPA with later problems such as breast cancer, heart disease and diabetes. But other studies have found no association. Canada declared BPA toxic in October 2010, but industry and regulators in the United States and in other countries maintain that health concerns are overblown.

Last month, the FDA denied a petition to ban the chemical, saying in a statement that while “some studies have raised questions as to whether BPA may be associated with a variety of health effects, there remain serious questions about these studies, particularly as they relate to humans and the public health impact.”

The fact that a plastic bottle or bag or tub can leach chemicals doesn’t necessarily make it a hazard to human health. Indeed, to the FDA, the key issue isn’t whether a chemical can migrate into food, but how much of that substance consumers might ingest.

If simulations and modeling studies predict that a serving contains less than 0.5 parts of a suspect chemical per billion – equivalent to half a grain of salt in an Olympic-size swimming pool – FDA’s guidance does not call for any further safety testing. On the premise that the dose makes the poison, the agency has approved a number of potentially hazardous substances for food-contact uses, including phosphoric acid, vinyl chloride and formaldehyde.

Emerging science 

But critics now question that logic. For one thing, it doesn’t take into account the emerging science on chemicals that interfere with natural hormones and might be harmful at much lower doses than has been thought to cause health problems. Animal studies have found that exposing fetuses to doses of BPA below the FDA’s safety threshold can affect breast and prostate cells, brain structure and chemistry, and even later behavior.

According to Jane Muncke, a Swiss researcher who has reviewed decades’ worth of literature on chemicals used in packaging, at least 50 compounds with known or suspected endocrine-disrupting activity have been approved as food-contact materials.

“Some of those chemicals were approved back in the 1960s, and I think we’ve learned a few things about health since then,” says Thomas Neltner, director of a Pew Charitable Trusts project that examines how the FDA regulates food additives. “Unless someone in the FDA goes back and looks at those decisions in light of the scientific developments in the past 30 years, it’s pretty hard to say what is and isn’t safe in the food supply.”

FDA spokesman Doug Karas in an e-mail interview said that before approving new food-contact materials, the agency investigates the potential for hormonal disruption “when estimated exposures suggest a need.” But FDA officials don’t think the data on low-dose exposures prove a need to revise that 0.5 ppb exposure threshold or reassess substances that have already been approved.

Another criticism is that the FDA doesn’t consider cumulative dietary exposure. “The risk assessments have been done only one chemical at a time, and yet that’s not how we eat,” Schecter notes. (Karas counters that “there currently are no good methods to assess these types of effects.”)

“The whole system is stacked in favor of the food and packaging companies and against the protecting of public health,” Nudelman, of the Breast Cancer Fund, says. She and others are concerned that the FDA relies on manufacturers to provide migration data and preliminary safety information, and that the agency protects its findings as confidential. So consumers have no way of knowing what chemicals, and in what amounts, they are putting on the table every day.

It’s not just consumers who lack information. The companies that make the food in the packages can face the same black box. Brand owners often do not know the complete chemical contents of their packaging, which typically comes through a long line of suppliers.

What’s more, they might have trouble getting answers if they ask. Nancy Hirshberg, vice president of natural resources at Stonyfield Farm, describes how in 2010, the organic yogurt producer decided to launch a multipack yogurt for children in a container made of PLA, a corn-based plastic. Because children are particularly vulnerable to the effects of hormone disrupters and other chemicals, the company wanted to ensure that no harmful chemicals would migrate into the food.

Stonyfield was able to figure out all but 3 percent of the ingredients in the new packaging. But when asked to identify that 3 percent, the plastic supplier balked at revealing what it considered a trade secret. To break the impasse, Stonyfield hired a consultant who put together a list of 2,600 chemicals that the dairy didn’t want in its packaging. The supplier confirmed that none were in the yogurt cups, and a third party verified the information.

Originally published by the Washington Post

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The Cocktail of a Chemical: Informed Beauty Guide.

We tend to forget that the skin is the largest organ of the body,and every day we apply a chemical cocktail of substances in ignorant bliss, there is continual studies suggesting that up to 60% of anything applied topically can be absorbed into our bodies. As the average woman uses up to 10-14 different skincare and cosmetic products each day, this calculates a high level of different chemicals each year seeping into our systems.

So why does this matter?

With many of the synthetic ingredients used in everyday skin care being potentially toxic to humans, you may like to reconsider some of the following:

Petrochemical derived ingredients (such as mineral oil) are extensively used in skin care as they help prevent water loss. While this may seem beneficial, they actually prevent the skin from breathing by forming an occlusive barrier, disrupting the skins normal functioning.

Parabens (a common preservative) have demonstrated oestrogen mimicking activity which disrupts the body's normal hormonal balance. In addition, parabens have also been shown to cause abnormalities in cell reproduction, an issue also associated with cancerous cells.

Sodium Laurel Sulphate (SLS) (a foaming agent) used in toothpaste, shampoo and foaming cleansers. Numerous trials showed that SLS can increase transdermal water loss causing the skin to become dehydrated and cause skin irritation.

Phthalates are a group of synthetic chemicals that are used in the production of various substances such as plastics, beauty products and artificial fragrances. Phthalates can interfere with reproductive tissues in both men and women leading to issues such as infertility and birth defects. Specifically it targets the testes in men and breast tissue in women.

Parfum and synthetic fragrances are the most common cause of adverse skin reactions. Propylene glycol is implicated in contact dermatitis, kidney damage and liver abnormalities. It also damages cell membranes causing rashes, dry skin and surface damage.

Finding safe and natural products can often be confusing - at Kasia Organic Salon, we have removed any guessing game from your "Beautiful Health" hair, skin, and service needs.

Ultimately, what you use on your hair or skin is an individual choice, and issues such as skincare goals, sensitivities or allergies, and personal values need to be taken into consideration. If you do choose to avoid ingredients such as those above the best way to do so is by reading product labels and making an informed decision. But if reading packages is not your style, it's usually safe to say that organic ingredients are best.

Kasia Organic Salon continues to launch options that are safe for you and your family.  Drop us a line or stop in for a consultation and learn more about our Ammonia Free Hair Color, Smoothing treatments, Medical Grade Facials, and more! 

Do you really absorb up to 60% of what we apply to our skin?

I remember back to 3 years ago when the phrase "we  absorb up to 60% of what we apply to our skin” was just starting to be used among natural beauty pioneers that were health minded as well.   Through my Functional Medicine research at the time, I just knew that this had to be true. To bring this topic up is important to me, as we are finding a increasing number of women with dermis allergies and environmental health complications with the overload of product use.   So, let's back this up.

There is  research to show strong evidence that we do in fact absorb quite a bit of what is applied. Rates of skin absorption of contaminants in public drinking water were studied by the University of Pittsburgh Graduate School of Public Health. The study found that the skin absorbed an average of 64% of the total contaminant dosage. In another study the face was found to be 2-6x more permeable than other body surfaces such as the torso, and underarms and genitalia to be even more permeable. In fact, the underarms and genitalia showed up to a 100% absorption estimate (Kasting, 2005).

The studies showed that absorption rate varies depending on the compound. Some examples include, caffeine, which is absorbed by the skin at 48% while DDT is absorbed at 10%. Alarmingly  fragrance ingredients, showed a 100% absorption rate (Robinson et al, 2000).

In any case regardless of actual percentage rates, it makes sense to know the ingredients in our skin care products so we know what we are applying and absorbing. Of course those of us at Kasia Organic Salon commit  to  the  choice of natural/organic  as it immediately cuts out artificial preservatives, fragrances and color compounds that are either suspected or confirmed to be harmful to us.

We suggest the following TOP 5 for your everyday Beautiful Health needs:

Pureoderant Kasia Natural Skin Care Jojoba Oil La Bella Donna Makeup Kasia Spicy Citrus and Weigh-less Organic Conditioner

Reference:  Vitale

Prenatal exposure to phthalates could affect infant behaviour

Higher levels of exposure to phthalates while pregnant could be linked to disruptive behaviour patterns in children, according to a recent US study. Phthalates are a large class of compounds some of which are found in cosmetic products such as fragrances and nail varnishes. According to a study recently published in the Environmental Health Perspectives online journal, prenatal exposure to high levels of low molecular weight phthalates (including those that are found in some cosmetic products, for example diethyl phthalate (DEP)) were associated with behavioural problems in children. The study, led by Dr Stephanie Engel of the Mount Sinai School of Medicine, took urine samples from 177 women who were enrolled for prenatal care either at the Mount Sinai Diagnostic Treatment Center or at two private practices on the Upper East Side of Manhatten. These urine samples (which were taken between 25 and 40 weeks into the pregnancy) were analysed for ten phthalate metabolites that were divided into two groups, high molecular weight and low molecular weight, to limit the number of statistical tests performed.

Women were invited for three follow up visits when their children were between 4 and 9 years old, and behavioural questionnaires were administered. Parental judgements on behaviour The parent-report sections of both the Behaviour Rating Inventory of Executive Functioning (BRIEF) and the Behaviour Assessment System for Children (BASC-PRS) were completed by the mothers at each visit. Poorer scores on BASC indexes such as aggression, attention problems, conduct problems and depression, were associated with higher maternal levels of low molecular weight phthalates, the scientists claimed. In addition, higher scores on the BRIEF scales such as emotional control were also associated with higher phthalate levels. The behaviours recorded in the study do not meet the ‘at risk’ or ‘clinically significant’ criteria, note the researchers. However, they argue that the findings warrant additional study on the role of prenatal exposure to low molecular weight phthalates in the emergence of disruptive behaviour problems in children.

Although the researchers are unsure of a mechanism behind these effects, they postulate it could be linked to phthalates’ potential endocrine effects and conclude the more research is ‘urgently needed’ in order to replicate the findings. If the findings were to be replicated, limits to prenatal exposure may need to be put in place, the researchers argued. DEP review in 2007 In 2007 the European Commission’s independent scientific committee the SCCP (now the SCCS, Scientific Committee on Consumer Safety) approved the use of DEP (the main phthalate used in Europe) in cosmetic products and did not pose any specific warnings or restrictions on its use.

Source: Environmental Health Perspectives doi: 10.1289/ehp.0901470 Prenatal phthalate exposure is associated with childhood behavior and executive functioning Stephanie M. Engel, Amir Miodovnik, Richard L. Canfield, Chenbo Zhu, Manori J. Silva, Antonia M. Calafat and Mary S. Wolff

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