Coffee drinking connected to rise in heart disease, cancer and Parkinson’s disease

Trichloroethylene (TCE) is believed to be contributing to the rise of Parkinson’s disease, the world’s fastest-growing brain condition.

Trichloroethylene (TCE), a chemical commonly used for decaffeinating coffee, degreasing metal, and dry cleaning clothes, is believed to be contributing to the rise of Parkinson's disease, the world's fastest-growing brain condition.

TCE is a pervasive contaminant, present in several sites including the Marine Corps base Camp Lejeune, 15 toxic Superfund sites in Silicon Valley, and up to one-third of groundwater in the U.S. TCE is known to cause cancer, linked to miscarriages and congenital heart disease, and has been associated with a 500 percent increased risk of Parkinson's disease.

An international team of researchers, including Ray Dorsey, Ruth Schneider, and Karl Kieburtz from the University of Rochester Medical Center (URMC), has published a hypothesis paper in the Journal of Parkinson’s Disease suggesting that TCE could be an invisible cause of Parkinson’s disease.

The paper provides details about the widespread use of TCE, the evidence linking the chemical to Parkinson’s disease, and profiles seven individuals who developed Parkinson’s disease after being exposed to the chemical in their work or the environment.

A ubiquitous and widespread industrial pollutant

TCE, a solvent widely used in industrial, consumer, military, and medical applications, was used for various purposes such as removing paint, correcting typewriting mistakes, cleaning engines, and anesthetizing patients.

In the 1970s, TCE use peaked in the U.S., with an annual production of more than 600 million pounds, or two pounds per American. Although the domestic use of TCE has decreased since then, it is still used in the U.S. for degreasing metal and spot dry cleaning.

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Approximately 10 million Americans worked with TCE or similar industrial solvents. While the domestic use of TCE has decreased, it is still being used in the U.S. for degreasing metal and spot dry cleaning.

Countless sites across the United States are contaminated with TCE. Half of the Environmental Protection Agency's Superfund sites that are the most toxic have been found to contain TCE.

The use of TCE to clean electronics and computer chips has resulted in contamination at fifteen sites in California's Silicon Valley. Additionally, TCE has been discovered at numerous military bases, including Camp Lejeune in North Carolina.

Between the 1950s and the 1980s, about a million Marines, their families, and civilians who either worked or lived at Camp Lejeune were exposed to unsafe levels of TCE and perchloroethylene (PCE), a closely related chemical. The levels of TCE and PCE in the drinking water were as much as 280 times above the safe limit.

TCE and Parkinson’s disease

More than half a century ago, case studies first suggested a possible link between Parkinson's disease and TCE. Since then, research on rodents has demonstrated that TCE can readily penetrate the brain and bodily tissues and, at high doses, damage the mitochondria, which are responsible for energy production in cells.

Moreover, TCE is known to cause the selective loss of nerve cells that produce dopamine, a hallmark of Parkinson's disease in humans.

People who have been directly exposed to TCE are at increased risk of developing Parkinson's disease, but the authors caution that "millions more" may unwittingly come into contact with the chemical through outdoor air, contaminated groundwater, and indoor air pollution.

TCE can contaminate soil and groundwater, giving rise to subterranean rivers, or plumes, that can extend over vast distances and migrate over time. One such plume, associated with an aerospace company on Long Island, New York, is over four miles long and two miles wide, and has contaminated the drinking water of thousands. Others can be found in places as diverse as Shanghai, China, and Newport Beach, California.

In addition to water-related risks, the volatile TCE can easily evaporate and infiltrate people's homes, schools, and workplaces, often without being detected. This vapor intrusion is now exposing millions of people who live, learn, and work near former dry cleaning, military, and industrial sites to toxic indoor air.

Vapor intrusion was first reported in the 1980s when radon was found to evaporate from soil and enter homes, increasing the risk of lung cancer. Today, millions of homes are tested for radon, but few are screened for TCE, which can cause cancer.

Decades before symptoms appear

The article features seven individuals whose Parkinson's disease may have been linked to their exposure to TCE. Although the connection between TCE exposure and Parkinson's disease in these cases is not conclusive, their experiences bring attention to the difficulties of proving a chemical's harmful effects. Moreover, these individuals' exposure to TCE often happened years before they developed symptoms of Parkinson's disease, making it even more challenging to establish a causal link.

One of the individuals mentioned is Brian Grant, a former NBA player who played for 12 years and was diagnosed with Parkinson's disease when he was 36 years old. Grant's exposure to TCE likely occurred when he was three years old and his father was a Marine stationed at Camp Lejeune. Grant has since founded a foundation to encourage and support those with Parkinson's disease.

Another person discussed in the article is Amy Lindberg, who served as a young Navy captain at Camp Lejeune and was similarly exposed to contaminated drinking water. Thirty years later, Lindberg was diagnosed with Parkinson's disease.

The article also profiles other individuals whose exposure to TCE resulted from living near a contaminated site or working with the chemical. This includes the late U.S. Senator Johnny Isakson, who served in the Georgia Air National Guard 50 years before his Parkinson's disease diagnosis in 2015. The Guard had used TCE to clean airplanes.

Addressing the threat to public health

The usage of TCE has been a significant concern for more than a century, as it has the potential to endanger workers, contaminate the air we breathe both inside and outside, and pollute the water we drink. Despite this, its global use is still increasing instead of decreasing.

To mitigate the public health risk that TCE poses, the authors prescribe a series of actions. They suggest that contaminated sites can be effectively remediated, and indoor air exposure can be reduced by utilizing vapor remediation systems similar to those used for radon. However, the cleaning and containment process must be expedited, considering the thousands of contaminated sites in the U.S. alone.

The authors also advocate for further research to understand the contribution of TCE to Parkinson's disease and other ailments. The levels of TCE in groundwater, drinking water, soil, and both indoor and outdoor air require closer monitoring, and this information must be disseminated to people living and working in polluted areas.

Additionally, the authors call for an end to the usage of TCE and other similar chemicals in the United States. Despite the EPA's recent discovery in 2022 that the chemicals pose "an unreasonable risk to human health," TCE is still used in vapor degreasing, and PCE is still prevalent in dry cleaning. While two states have banned TCE, the federal government has yet to take any action.

Additional authors include the paper’s co-first author, Maryam Zafar, now a student at the Harvard T.H. Chan School of Public Health, Samantha Lettenberger, Meghan Pawlik, and Dan Kinel with URMC, Bastiaan Bloem and Myrthe Frissen with Radboud University Medical Centre in the Netherlands, Caroline Tanner and Samuel Goldman with the University of California-San Francisco, and Briana De Miranda with the University of Alabama at Birmingham.

For more science news stories check out our New Discoveries section at The Brighter Side of News.

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Joseph Shavit
Joseph ShavitSpace, Technology and Medical News Writer
Joseph Shavit is the head science news writer with a passion for communicating complex scientific discoveries to a broad audience. With a strong background in both science, business, product management, media leadership and entrepreneurship, Joseph possesses the unique ability to bridge the gap between business and technology, making intricate scientific concepts accessible and engaging to readers of all backgrounds.