Reprinted with permission from Wisconsin Sea Grant. Original story link

By Marie Zhuikov – April 28, 2020

 

A Wisconsin Sea Grant-funded project has helped improve the state’s capability to test for PFAS (per- and polyfluoroalkyl substances) and led to the discovery of their widespread presence in rainwater across the country.

The project is led by Martin Shafer, senior scientist with the University of Wisconsin-Madison School of Medicine and Public Health and the and Wisconsin State Laboratory of Hygiene (WSLH). Shafer is also a principal researcher with the National Atmospheric Deposition Program (NADP), the nation’s longest-running program for monitoring the chemistry of precipitation, which is housed at the WSLH.

Shafer said the presence of PFAS in everything from the food supply, personal care products, lakes and the atmosphere is a “growing crisis.” PFAS exposure is linked to human health concerns, including compromised immunity, low birth weight, endocrine disruption and cancer.

“Everyone in the world, including those in northern Canada and remote regions, all have substantial levels of PFAS in their bloodstreams,” Shafer said. “Some people believe PFAS are a significant threat to human health.”

These chemicals get into the environment from point sources like firefighting foam and industrial processes. Shafer said an estimated 4,500 to 5,000 PFAS compounds exist, but federal regulations currently only target two: PFOS and PFOA.

With help from the Sea Grant funding, the WSLH can now measure levels of 36 PFAS compounds, which is the highest available in the state. “Two other labs in Wisconsin can test for PFAS, but they can’t offer the breadth of compounds nor the breadth of matrices that the state lab can,” Shafer said.

Rainwater is another source of PFAS that, until recently, has received limited study. In his researcher role with the federal NADP, Shafer is in an ideal situation to study the cycling of PFAS in the atmosphere and rainwater deposition.

Precipitation samples from 263 sites of the NADP National Trends Network across the country “appear” on his lab doorstep every weekday. Studying samples from 31 of those sites, Shafer found measurable levels of PFAS in almost all, some up to four or five nanograms per liter.

“Considering that Wisconsin just promulgated an action level of two nanograms per liter and a regulatory level of 20 for PFAS, that’s not insignificant,” he said. “We showed that deposition from rainfall events integrated over a year could represent and supply a large fraction of PFAS loading to large lakes, and similarly, to terrestrial environments that are not receiving any other point-source loadings of PFAS.”

Shafer presented his rainfall study results at the American Geophysical Union meeting last fall in San Francisco, which resulted in media interest from outlets like “The Guardian,” and The Weather Channel. The U.S. Environmental Protection Agency also took note and will be using these data in their deposition models.

Shafer is now gearing up to study the role of wastewater treatment facilities in disseminating PFAS. Sea Grant is funding a graduate student to work on this project and the Wisconsin Department of Natural Resources (DNR) is providing funding for analysis at the WSLH. Samples of wastewater influents, effluents, biosolids and air emissions will be collected and analyzed.

Because the wastewater treatment facilities collect and concentrate wastes from many different sources, Shafer is concerned that they could unwittingly be a point-source for PFAS pollution. Spreading biosolids produced at the treatment plant on agricultural fields could result in further dissemination with potential for contamination of water resources and crops.

With funding and collaboration with the DNR, Shafer will also be studying how PFAS are distributed and transformed in the atmosphere. He will be collecting PFAS precipitation samples from seven NADP sites in Wisconsin for a three-and-a-half-month period, every week.

“That will be one of the more intensive studies of PFAS done anywhere,” Shafer said. He’s also working with several northeastern states to establish a similar project.

“We need to understand what is driving the distribution pattern of PFAS in the atmosphere — what compounds are contributing to the load, how can we fingerprint sources – a whole list of things where further work would need to be done,” Shafer said.

April 19 – 25, 2020 is the 44^th annual national Lab Week.

This year, Lab Week during the COVID-19 pandemic means the dedicated Wisconsin State Laboratory of Hygiene (WSLH) scientists who took a quick break from testing for this outdoors photo wore non-PPE face masks and were socially distanced.

WSLH leadership and our Board THANK all the WSLH scientists and staff, as well as all laboratory professionals, for their dedication to their science and the people we all serve.

 

The University of Wisconsin-Madison highlighted the campus partnerships helping expand COVID-19 virus testing in Wisconsin.

Read more at https://news.wisc.edu/wisconsin-state-laboratory-of-hygiene-works-with-campus-partners-to-test-for-covid-19/

The Wisconsin State Laboratory of Hygiene (WSLH) Environmental Health Division has been awarded $51,000 by the Association of Public Health Laboratories (APHL) to support development of a test method for PFAS in human serum. The ability to assess exposure to PFAS in the Wisconsin population is currently a gap that the funding will help to fill.

The analytical method will be based on the CDC NHANES method, will be CLIA-compliant, and is expected to capture over 30 individual PFAS compounds. The work will be performed by the WSLH Chemical Emergency Response (CER) program, with an early autumn 2020 target date.

This effort features partnerships with the WI Dept. of Health Services (WDHS) and the Survey of the Health of Wisconsin (SHOW).  Appropriate medical interpretation of the data is a critical component of exposure assessment, and WDHS will provide that. Once the method is in place, award funds will be used to obtain a large set of archived SHOW serum specimens. The testing of these specimens will allow the assessment of historic PFAS exposure in the WI population, and allow the evaluation of exposure trends as prospective data are generated.

Some of the Wisconsin State Laboratory of Hygiene scientists performing COVID-19 virus testing for the state with a reminder to Stay Safer at Home.

 

The Wisconsin State Laboratory of Hygiene Communicable Disease Division has posted information for clinical laboratories and local health departments about COVID-19 virus testing.

Topics covered include:

• Testing Approval
• Specimens
• Packaging and Shipping
• Test Results
• Biosafety Considerations
• Other Resources

Links

WSLH COVID-19 Virus Testing

Wisconsin Division of Public Health COVID-19 information

CDC COVID-19 information

 

Please note the following changes to the Wisconsin State Laboratory of Hygiene’s operations due to the observance of the Martin Luther King, Jr. Day holiday.

The table below lists the hours of operations for our Clinical Specimen Receiving departments.

As always, if you have an off-hours emergency, please call the WSLH Emergency Pager at 608-263-3280.

 

WXOW-TV in La Crosse aired an in-depth story about PFAS contamination in water. WSLH Organic Chemistry Supervisor Erin Mani and Advanced Chemist Brandon Shelton were interviewed about the WSLH’s efforts to develop methods to test for PFAS in a wide variety of matrices.

Watch the story at https://wxow.com/2019/12/30/digging-deeper-pfas-water-contamination/

Using cutting-edge 21st century science to reveal secrets of ancient history, WSLH Post-Doctoral Research Associate Sean Scott, along with Martin Shafer, Joel Overdier (WSLH), Phil Farrell (UWSMPH) and international collaborators published research in the journal Archaeometry showing elevated lead levels in Roman residents of ancient Londinium. Testing for the research was performed in the WSLH Trace Elements Clean Lab.

Scott with his fellow researchers looked at lead levels in ancient thigh bones (1st to 3rd century AD) buried in the settlement of Londinium. They found exceedingly high lead levels, which did not come from being buried with lead grave goods or in lead coffins. The potential for negative health effects and even potential population decline due to widespread elevated lead levels could have impacts on our understanding of this ancient Roman community.

The research was written about in:

Forbes – https://www.forbes.com/sites/kristinakillgrove/2019/11/29/archaeological-skeletons-from-london-prove-some-romans-were-lead-poisoned/

Chemistry World – https://www.chemistryworld.com/news/londinium-romans-blood-lead-levels-so-high-they-may-have-lowered-birth-rates/4010808.article

WSLH Forensic Toxicology Director Amy Miles was elected President-Elect of the Society of Forensic Toxicologists (SOFT) at its annual meeting. Amy will promote to SOFT President in 2021.

SOFT is a professional organization composed of ~ 2,000 practicing forensic toxicologists and those interested in the discipline for the purpose of promoting and developing forensic toxicology. Through its annual meetings and Journal of Analytical Toxicology, the Society provides a forum for the exchange of information and ideas among toxicology professionals.