Analytical Results of Testing Food for PFAS from Environmental Contamination
<< Per- and Polyfluoroalkyl Substances (PFAS)
To understand the potential dietary exposure to PFAS from food, the FDA has focused its testing on foods most commonly eaten by people in the United States. The FDA also conducts testing of food grown or produced in areas with known environmental contamination, to detect and evaluate potential contamination of human and animal food. When the FDA finds a detectable level of PFAS, the agency conducts an assessment to evaluate whether the level detected presents a possible human health concern and warrants further FDA action.
The FDA’s analytical method is validated for each type of PFAS. The types of PFAS that the FDA tests for is dependent on their expected uptake to foods and on the availability of chemical standards (i.e., the unique chemical fingerprint that allows us to separately detect and measure each PFAS). For example, in the FDA’s 2022 survey of seafood some of the PFAS that were added to our method had been identified in the literature as being more prevalent in seafood.
The development of toxicological reference values is an area of ongoing scientific research. Toxicological reference values help the FDA to assess if there is a potential health concern from exposure to specific types of PFAS, at certain levels. Currently there are six PFAS (PFOA, PFOS, PFNA, PFHxS, HFPO-DA ⌈GenX⌉, and PFBS) from environmental contamination for which the FDA can assess the potential human health concern for levels found in food. At this time, there are no other appropriate toxicological reference values for the other types of PFAS that the FDA may test for. Therefore, it is not possible to determine at what levels exposure for these other types of PFAS may be a potential health concern. Additionally, we are not able at this time to determine if there is a cumulative health risk from co-exposure to multiple types of PFAS detected in food samples.
- For more information about the FDA’s human health assessment approach, please visit: Testing Food for PFAS and Assessing Dietary Exposure.
- For the scientific method, please visit: Determination of 16 Per and Polyfluoroalkyl Substances (PFAS) in Food using Liquid Chromatography-Tandem Mass Spectrometry (LC-MS/MS) (Version 2021). Update: The extended method with four additional PFAS will be posted in Spring/Summer 2022.
- Dairy Farm, 2018-2021: Samples were collected from two dairy farms (Farm A & Farm B) with known PFAS contamination of groundwater. Based on the best available current science, the FDA had no indication that the levels of PFAS found in the limited sampling of milk from Farm B and cheese from Farm A presented a human health concern. The milk samples from Farm A had levels of PFAS that could be a potential human health concern. The FDA has analyzed multiple collections of samples to assess PFAS levels and all milk from Farm A was discarded and did not enter the food supply.
- Produce, 2018: Produce samples were analyzed from an area with known PFAS environmental contamination, in addition to 1 sample purchased outside of the area as a control. Sixteen of the 20 samples had detectable levels of PFAS. Based on the best available current science, the FDA has no indication that these substances, at the levels found in the sampling, present a human health concern. This sample size is limited; therefore, these results cannot be used to draw definitive conclusions about the levels of PFAS in produce grown in this area more generally.
- Cranberries, 2016: Cranberry samples were analyzed from a bog containing water with known PFAS environmental contamination. None of the 42 cranberry samples had detectable levels of PFAS. This sample size is limited; therefore, these results cannot be used to draw definitive conclusions about cranberries grown in this area more generally.
- Investigation into perfluoroalkyl substances (PFASs) in a cranberry bog: method development and sampling results. Susan Genualdi, Nahyun Jeong, Lowri deJager and Timothy Begley. FOOD ADDITIVES & CONTAMINANTS: PART A, 2017, VOL. 34, NO. 12, 2181–2189.
Beginning in 2019, the FDA has tested for PFAS in multiple collections of food samples from the Total Diet Study. The sample sizes for each individual food are limited; therefore, these results cannot be used to draw definitive conclusions about the levels of PFAS in the general food supply. The results do, however, help the FDA to identify foods that may be at a higher risk for PFAS contamination to help the agency determine if a more targeted or larger survey may be helpful to better understand PFAS in specific types of foods.
TDS Regional Sample Collections: Composite of multiple samples of each type of food (from three different cities in a region) are tested. Regionally distributed foods are more likely to vary by location or time of year, such as fresh produce, meats, and dairy products.
- Results from the first set of TDS samples analyzed showed that two of the 91 samples had detectable levels of one type of PFAS.
Analytical Results for PFAS in 2019 Total Diet Study Sampling (Parts Per Trillion)— Dataset—1 (PDF: 178KB), Update Posted October 2020 - Results from the second set of TDS samples analyzed showed that one of the 88 samples had a detectable level of one type of PFAS.
Analytical Results for PFAS in 2019 Total Diet Study Sampling (Parts Per Trillion)— Dataset—2 (PDF: 180KB), Update Posted October 2020 - Results from the third set of TDS samples analyzed showed that one of the 94 samples had a detectable level of two types of PFAS.
Analytical Results for PFAS in 2021 Total Diet Study Sampling (Parts Per Trillion)— Dataset—3 (PDF: 188KB), Posted June 2021 - Results from the fifth set of TDS samples analyzed showed that three of 92 samples had a detectable level of one to three types of PFAS.
Analytical Results for PFAS in 2021 Total Diet Study Sampling (Parts Per Trillion)—Dataset—5 (PDF:180KB), Posted February 2022
TDS National Sample Collections: Composite of multiple samples of each type of food (different brands) are tested. Nationally distributed foods are less likely to vary by location or time of year, such as prepared baby foods and salad dressing.
- Results from the fourth set of TDS samples analyzed showed that three of the 167 samples had a detectable level of one to three types of PFAS.
Analytical Results for PFAS in 2021 Total Diet Study Sampling (Parts Per Trillion)— Dataset—4 (PDF: 233KB), Posted August 2021
FDA Human Health Assessment for TDS Regional and National Collections: Currently there are six PFAS (PFOA, PFOS, PFNA, PFHxS, HFPO-DA ⌈GenX⌉, and PFBS) from environmental contamination for which the FDA can assess the potential human health concern for levels found in food. Based on the best available current science, the FDA has no indication that the five PFAS at the levels found in the limited sampling of foods collected for the TDS present a human health concern.
- Seafood, 2022: Samples from 8 types of seafood, primarily imported, and including fresh, frozen, processed, canned, and seafood in pouches collected at retail locations in the Washington, DC metropolitan area and purchased online were analyzed for PFAS. To inform the collection of seafood samples, the FDA identified the countries of origin from which the greatest share of the market is imported by the U.S. Sampling also took into account whether the seafood typically consumed are either wild-caught or raised via aquaculture. Sixty of the samples had detectable levels of PFAS, with most samples having more than one type of PFAS detected. The FDA determined that of the PFAS evaluated, the levels of PFOA in the 10 clam samples are likely a health concern. The FDA is working to determine the scope of the problem and taking action to ensure the continued safety of the U.S. food supply.
- Carbonated Water and Non-Carbonated Bottled Water, 2016: Samples of domestic and imported carbonated water and non-carbonated bottled water were collected at retail locations in the Washington, D.C. metropolitan area and analyzed for PFAS. The samples included: purified, artesian, spring, mineral, and carbonated waters. None of the 30 samples had detectable levels of PFAS. This sample size is limited; therefore, these results cannot be used to draw definitive conclusions about the levels of PFAS in carbonated water and non-carbonated bottled water more generally.
- Seafood, 2013: Fish and shellfish samples from 13 species of fresh and saltwater fish from across the country were analyzed for PFAS. Eleven of the 46 samples had detectable levels of PFAS. Based on the best available current science, the FDA has no indication that these substances at the levels found in the limited sampling present a human health concern. This sample size is limited; therefore, these results cannot be used to draw definitive conclusions about the levels of PFAS in seafood more generally.
- Milk, 2012: Raw and retail milks were sampled from across the country and analyzed for PFAS. One of the 12 raw milk samples and none of the 49 retail milk samples had detectable levels of PFAS. The one raw milk sample with detectable PFAS was obtained from a dairy farm that had applied PFAS containing biosolids to its fields. Based on the best available current science, the FDA has no indication that these substances at the levels found in the limited sampling present a human health concern. The sample size is limited; therefore, these results cannot be used to draw definitive conclusions about the levels of PFAS in milk more generally.