The Norwegian Ministry of the Environment is submitting proposals to prohibit four hazardous substances in consumer products, to the EFTA Surveillance Authority. The substances are found in a number of products such as crayons, toys, paint, carpeting, plastics and textiles.

The proposed prohibitions include lead, medium-chain chlorinated paraffins (MCCPs), pentachlorophenol (PCP) and perfluorooctanoic acid (PFOA) that are among the most serious hazardous substances we know of.

Consumer products are an important source of emissions of hazardous substances to the environment and of exposure to humans. Hazardous substances accumulate in nature and are a threat to the environment and human health.

It is important to reduce the dispersion of hazardous substances. Hazardous substances are found in products that we surround ourselves with on a daily basis, but that it may be difficult for the consumer to be aware of. It is important to phase out hazardous substances in consumer products in order to secure the consumer safe products, and to reduce the dispersion of hazardous substances. The four proposed prohibitions are an important contribution to reducing negative health- and environmental effects consumer products may cause, says the Minister of Environment and International Development Erik Solheim.

Norway as a frontrunner

The proposals to prohibit the four substances in consumer products are stricter than current regulations in the EU.

I want Norway to be a driving force for stricter environmental regulations internationally. The proposed prohibitions send an important signal that Norway takes the challenge from hazardous substances in consumer products seriously. I hope the comprehensive work that these prohibitions are founded upon, can contribute to common international regulations in this field, says Solheim.

EFTA Surveillance Authority will now send the proposals on public consultation in the EEA area. The Ministry of the Environment will at the same time ask the Climate and Pollution Agency to send the proposed prohibitions on public consultation nationally.

The Climate and Pollution Agency have considered that there are good and safe alternatives, and that the industry is not dependent on using these substances to produce the products.

Reference:

Ministry of the Environment Norway, Norway proposes to prohibit four hazardous substances in consumer products, Dec. 20, 2010.

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A new study led by Mount Sinai researchers in collaboration with scientists from Cornell University and the U.S. Centers for Disease Control and Prevention, has found higher prenatal exposure to phthalates—manmade chemicals that interfere with hormonal messaging—to be connected with disruptive and problem behaviors in children between the ages of 4 and 9 years. The study, which is the first to examine the effects of prenatal phthalate exposure on child neurobehavioral development, will be published January 28, on the Environmental Health Perspectives website.

“There is increasing evidence that phthalate exposure is harmful to children at all stages of development,” said Stephanie Engel, PhD, lead study author and Associate Professor of Preventive Medicine at Mount Sinai School of Medicine. “We found a striking pattern of associations between low molecular weight phthalates – which are commonly found in personal care products – and disruptive childhood behaviors, such as aggressiveness and other conduct issues, and problems with attention. These same behavioral problems are commonly found in children diagnosed with Attention-Deficit Hyperactivity Disorder (ADHD), Oppositional Defiant Disorder, or Conduct Disorder.”

Phthalates are part of a group of chemicals known as endocrine disruptors, that interfere with the body’s endocrine, or hormone system. They are a family of compounds found in a wide range of consumer products such as nail polishes, to increase their durability and reduce chips, and in cosmetics, perfumes, lotions and shampoos, to carry fragrance. Other phthalates are used to increase the flexibility and durability of plastics such as PVC, or included as coatings on medications or nutritional supplements to make them timed-release.

“Recently, the government instituted regulations limiting certain phthalates in things like child care articles or toys that a young child might put in their mouth,” continued Dr. Engel. “But it’s their mother’s contact with phthalate-containing products that causes prenatal exposure. The phthalates that we found most strongly related to neurodevelopment were those commonly found in cosmetics, perfumes, lotions and shampoos. Current US regulations do not address these kinds of phthalates.”

For the study, phthalate metabolite levels were analyzed in prenatal urine samples of a multiethnic group of 404 women who were pregnant for the first time. The women were invited to participate in follow-up interviews when their children were between the ages of 4 and 9. The mothers were not informed of their phthalate metabolite levels and the researchers were unaware of their exposures when testing the children.

Follow-up visits were completed by 188 of the women and their children. At each follow-up visit, the mothers completed validated questionnaires designed to assess their behavior and executive functions. The researchers found that mothers with higher concentrations of low molecular weight phthalates consistently reported poorer behavioral profiles in their children. The strongest trends were in the categories of conduct and externalizing problems, characteristics typically associated with Oppositional Defiant Disorder, Conduct Disorder and ADHD.

“These are high level, chronic exposures that start before the child is even born, but continue throughout their life. More research is needed to examine the effects of cumulative exposure to phthalates on child development. But what this study suggests is that it’s not enough to regulate childhood exposure to these chemicals. The regulations need to include products that moms use,” said Dr. Engel.

Reference: The Mount Sinai Hospital / Mount Sinai School of Medicine, Mount Sinai finds prenatal exposure to certain chemicals affects childhood neurodevelopment, Jan. 28, 2010

Are phthalates really safe for children? 

Phthalates are important components of many consumer products, including toys, cleaning materials, plastics, and personal care items. Studies to date on phthalates have been inconsistent, with some linking exposure to these chemicals to hormone disruptions, birth defects, asthma, and reproductive problems, while others have found no significant association between exposure and adverse effects. 

A new report by Korean scientists, published by Elsevier in the November 15th issue of Biological Psychiatry, adds to the potentially alarming findings about phthalates. They measured urine phthalate concentrations and evaluated symptoms of attention-deficit/hyperactivity disorder (ADHD) using teacher-reported symptoms and computerized tests that measured attention and impulsivity. 

They found a significant positive association between phthalate exposure and ADHD, meaning that the higher the concentration of phthalate metabolites in the urine, the worse the ADHD symptoms and/or test scores. 

Senior author Yun-Chul Hong, MD, PhD, explained that “these data represent the first documented association between phthalate exposure and ADHD symptoms in school-aged children.” John Krystal, MD, the Editor of Biological Psychiatry, also commented: “This emerging link between phthalates and symptoms of ADHD raises the concern that accidental environmental exposure to phthalates may be contributing to behavioral and cognitive problems in children. This concern calls for more definitive research.” 

The U.S. Centers for Disease Control and Prevention, in the Summary of their 2005 Third National Report on Human Exposure to Environmental Chemicals, state that “very limited scientific information is available on potential human health effects of phthalates at levels” found in the U.S. population. Although this study was performed in a Korean population, their levels of exposure are likely comparable to a U.S. population.

The current findings do not prove that phthalate exposure caused ADHD symptoms. However, these initial findings provide a rationale for further research on this association. 

Reference: Elsevier, Common plastics chemicals linked to ADHD symptoms, November 19, 2009

So you’re a manufacturer about to introduce a new consumer product to the marketplace. Will that product or the manufacture of the product contribute to global warming through the greenhouse effect? Until now, there was no clear way to answer that question. Scientists are reporting development of a new method for screening molecules and predicting how certain materials, ranging from chemicals used in carpeting to electronics, will contribute to global warming. Their study is scheduled for the Nov. 12 issue of ACS’ Journal of Physical Chemistry A, a weekly publication.

In the new study, Timothy Lee, Partha Bera, and Joseph Francisco note that carbon dioxide is the main greenhouse gas, which traps heat near Earth’s surface like the panes of glass in a greenhouse. However, other gases have the same effect, and in fact are even more efficient greenhouse gases than carbon dioxide. Scientists know that the molecules in gases differ in their ability to contribute to global warming. But they know little about the hows and whys – the molecular basis of those differences.

The scientists analyzed more than a dozen molecules involved in global warming to find out which chemical and physical properties are most important in determining their inherent radiative efficiency, and thus possess the largest potential to contribute to global warming. They found that molecules containing several fluorine atoms tend to be strong greenhouse gases, compared to molecules containing chlorine and/or hydrogen. They found for the first time that molecules containing several fluorine atoms bonded to the same carbon increase their radiative efficiency in a non-linear fashion. “It is hoped that the results from this study will be used in the design of more environmentally friendly materials,” the study notes.

Reference: American Chemical Society, Toward the design of greener consumer products, September 16, 2009

Picture: US Environmental Protection Agency

Full Text Article: Identifying the Molecular Origin of Global Warming