Scientists know that elements in the environment often interact with elements of our own physiology to cause serious problems. And new research is emerging that suggests we may be seeing this phenomenon with diabetes.
We've long known that obesity is a major risk factor for diabetes. But now it appears that exposure to pollutants can seriously aggravate the risk, and—in combination with obesity—may be associated with the increased risk of becoming diabetic. A recent study in the journal Diabetes Care looked at the connection between six persistent organic pollutants (known as POPs) and diabetes...and what they found was dramatic.
Lead researcher Duk-Hee Lee, MD, PhD, and her team divided t,ire 2,016 subjects into groups based on five levels of pollutants. Group 1 had the lowest levels and group 5 had the highest levels. The results showed that the prevalence of diabetes increased by 14- to 38-fold as the concentrations of the sum of the six POPs increased, irrespective of participants' weight, says Dr. Lee.
Compared with group 1 (which had a .4% incidence of diabetes), group 2 had a 6.7% incidence of diabetes, while group 5 had an astonishing 25.6% incidence of the disease (groups 3 and 4 ranged in between). Dr. Lee says that while obesity remains a risk factor for type 2 diabetes, the obese and overweight people with very low concentrations of POPs had a much lower incidence of diabetes. Could obesity and pollutants interact to cause diabetes?
"It's our hypothesis that obesity might be only weakly associated with diabetes among people with very low serum concentrations of POPs," says Dr. Lee. She explains that while her research concentrated on only six specific pollutants out of about 50 POPs identified in the National Health and Examination Survey, there was a striking connection between the blood concentrations of these six toxins and the of diabetes.
This is not the first time that such a connection has been demonstrated. Earlier research from Sweden also found that exposure to POPs may contribute to the development of type 2 diabetes. Prior research also demonstrated that exposure to at least one toxin—a dioxin called TCDD—increases the risk of diabetes and insulin resistance. It's believed that these toxins may interfere with glucose metabolism.
Persistent organic pollutants (POPs) include certain chemical byproducts, PCBs and certain insecticides. They have been linked to cancer, neurobehavioral impairment, endocrine problems and reproductive disorders. Previous researchers looked at groups who are occupationally or accidentally exposed to high levels of these pollutants, for example, Vietnam veterans. (The US Department of Veterans Affairs includes type 2 diabetes in its list of presumptive diseases associated with exposure to the dioxin-containing Agent Orange) But Dr. Lee's study is the first to examine the cumulative effect of most commonly detected POPs among a random low-level exposure in the general population. The six toxins in the study are found in the environment, and they move through the air and water to accumulate in the environment.
Dr. Lee was careful not to say that pollutants by themselves necessarily cause diabetes, and she expressed the usual researcher's caution about jumping to strong conclusions based on one or two studies. "Plenty of people have exposure to these pollutants and don't get diabetes," she explains. "But the strong connection between high levels and increased incidence is very hard to ignore, as is the faa ttrat there are such low levels of diabetes among those with low levels of exposure, even among the overweight and obese." Could genes be a factor? "It's prudent to act as if everyone is at risk, regardless of genetic makeup," she says.
HOW TO LIMIT EXPOSURE
How do we get exposed to these chemicals in the first place? "Exposure to POPs comes mostly from animal fatty food consumption," says Dr. Lee.
Her recommendation: “A low intake of animal food and a higher intake of plant food may be beneficial. And, aside from trying to avoid POPs, preventing obesity is still very important because the toxiciry of POPs appeared to synergistically increase the risk of type 2 diabetes among obese persons."