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Toxic Tuesdays

How the Duration of Exposure Affects Toxicity

Toxic Tuesdays

CHEJ highlights several toxic chemicals and the communities fighting to keep their citizens safe from harm.

How the Duration of Exposure Affects Toxicity

CHEJ has previously written about the importance of considering multiple chemical exposures when assessing the toxicity of exposure to toxic chemicals. In addition, it is also important to consider the duration of exposure. How long was a person exposed? What was the concentration of the substance(s) during this period of time are critical to truly understanding the cumulative effects that a person has suffered? Without this information, we can only partially understand the risks of exposure to toxic chemicals. 

Yet when evaluating whether exposures to toxic chemicals pose risks to human health, the government’s approach is usually very narrow: it assumes there is a single chemical from a single source at a single point in time with a single exposure pathway causing a single health effect. This approach makes risk assessment more feasible and understandable, but it does not reflect the reality of our lives.

In reality, we are exposed to multiple chemicals at a time and exposures can happen over a long period of time. This means that considering the potential effects of a single exposure to a single chemical isn’t sufficient for evaluating public health risks. We need to include cumulative risks that account for both multiple chemical exposures and exposure over time in order to begin to understand the risks to public health. But incorporating these parameters into a risk assessment poses significant new challenges that  requires more estimates and generates additional uncertainty than the traditional risk assessment approach.

In many cases, exposure assessments assume that exposure to a chemical happens in a single instant in time. In some cases – like cancer risk – EPA assumes that risk is proportional to the lifetime dose. In general, longer exposure means greater risk, but the relationship between duration of exposure and health risk is complicated. The risk depends on the effects an exposure has on the body and the body’s response to it. In some cases, the body may adapt to exposure and the threat over time may be less than additive. In other cases, the body may become more sensitive and the threat over time may be more than additive. Repeated exposure can also influence health risk: past exposure to some chemicals can make us more vulnerable to subsequent exposure. And how do you consider the effects caused by exposure to multiple chemicals that target the same organ in the body can cause more damage than exposure to any of those chemicals individually?

The effect of exposure over time is important to consider in risk assessments, but agencies like EPA and ATSDR do not have comprehensive frameworks for how to assess this cumulative risk. Part of the reason for this is a lack of data. The guideline values we use to evaluate risks are driven by data generated from exposures to a single chemical for a defined period of time. For common chemicals and chemical mixtures that people are exposed to, we need to know how different concentrations and durations of exposure affect health. There is a need for more scientific study on how exposures to chemicals over long periods of time can impact our risk for adverse health effects. Once people have been exposed to chemicals, we also need better tools to measure their past exposure so it can be accounted for in risk assessments.

While more research and data is crucial, there will always be uncertainty in science and data, and we cannot let uncertainty stop us from taking action to protect health. In addition to more scientific study, we need clearer guidelines from federal agencies regarding how to consider cumulative risk – both from multiple chemical exposures and exposures over time – in evaluating if an environmental hazard is a threat to human health. We also need to acknowledge how poor the tools we have are at considering cumulative risks caused by exposures to multiple chemicals over time.

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Toxic Tuesdays

1,2-dichloroethane (1,2-D)

Toxic Tuesdays

CHEJ highlights several toxic chemicals and the communities fighting to keep their citizens safe from harm.

1,2-dichloroethane (1,2-D)

1,2-dichloroethane (1,2-D) – also called ethylene dichloride – is a clear, oily liquid with a sweet smell that is man-made and not found in nature. It is used in the production of plastic and vinyl products like polyvinyl chloride (PVC) pipes, upholstery, automobile parts, and housewares. It is also added to the leaded gasoline used in airplanes and racecars. 1,2-D was previously used in some household products like carpet cleaners, but most of these products are discontinued. 1,2-D can enter the environment during its production, disposal, or use. It can enter the water and soil, but because it is volatile (meaning it readily evaporates), most 1,2-D ends up in the air. Once in the air, it can persist for many months and travel long distances.

Because most 1,2-D in the environment ends up in the air, people are most likely to be exposed to it by breathing contaminated air. Exposure can cause damage to many organ systems: brain dysfunction such as nausea and blurred vision; gastrointestinal dysfunction such as vomiting, gastritis, and colitis; respiratory dysfunction such as difficulty breathing and bronchitis; immune system dysfunction such as decreased ability to fight infection and decreased blood clotting; liver damage; and kidney damage. In extreme cases, exposure can cause heart attack and death. In studies of laboratory animals, exposure also caused lung, liver, brain, and reproductive cancers. Based on this research, the US Environmental Protection Agency has determined that 1,2-D probably causes cancer in humans.

1,2-D is known to be a very dangerous chemical with multiple harmful effects on human health. It is a positive development that household products with 1,2-D are largely discontinued. However, its continued use in products like PVC pipes and leaded gasoline mean that 1,2-D and its threats to human health remain pervasive in both household and industrial environments.

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Acrylamide

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