The ZRT Laboratory Blog

The ZRT Blog is an extensive resource for patients and health care providers searching for health and hormone testing information. Here, you can read about ZRT’s cutting edge research, advances in testing, wellness advice, and health industry highlights.

Posted by Ted Zava on Wednesday, 19 November 2014

Arsenic Exposure from Rice and Rice-Based Breakfast Cereals

Arsenic exposure from rice cereal

Did you know that the amount of arsenic in your public water supply is strictly regulated by the FDA, and must test below 10 ppb* total arsenic? Ironically, the food we eat has no such regulations on arsenic content, and some staple foods such as rice may contain high levels of arsenic.

Arsenic is a natural element found in soil and water at different concentrations throughout the world. There are two types of arsenic, inorganic and organic, the former being much more toxic and associated with generation of free radicals that damage tissues and potentially lead to diseases of aging and cancer. Typically, chronic long term arsenic exposure comes from private or unregulated wells, but recently rice grown in soil and irrigation water containing high levels of arsenic has been identified as a major source of arsenic exposure.

How much arsenic did Consumer Reports find in popular rice-based food products? Total levels of arsenic reached as high as 963 ppb, while inorganic arsenic levels topped out at 222 ppb. Most products had inorganic arsenic levels between 50 and 150 ppb. Americans eat on average 25 pounds of rice a year (compared to 210 in China and 365 in Vietnam). Assuming consumption of 25 pounds of rice products a year with an inorganic arsenic concentration of 100 ppb, exposure would equate to over 1000 µg per year. This might not be of concern in the short term, but persistent exposure to inorganic arsenic over a long period of time is detrimental to health.

What makes arsenic so toxic? Exposure to arsenic results in the formation of reactive oxygen species (ROS) which cause oxidative damage, primarily to DNA and mitochondria. Arsenic also forms a tight complex with selenium, reducing its bioavailability for incorporation into selenoproteins. Selenoproteins play important roles in thyroid hormone synthesis and as antioxidants to protect tissues against attack by reactive oxygen species (ROS), leading to carcinogenesis. Chronic arsenic exposure, especially in the presence of selenium deficiency, can therefore contribute to both hypothyroidism and an increased risk of cancer.

Unfortunately there is no way of knowing if you are consuming too much arsenic or too little selenium in your food, unless you test a body fluid that reflects exposure to these toxic and essential elements. Arsenic has no taste, smell, or color, which makes it nearly impossible to know if the water you are drinking, or the food you are eating contains too much arsenic.

To overcome this hurdle, ZRT Laboratory has developed a simple urine test to evaluate consumption of arsenic. Urine is collected on a filter strip and dried prior to shipping to ZRT, making collection and shipping simple and convenient. 

So, before you pick up that bag of rice, rice crispy treat, or box of riced-based cereal, stop to think how much arsenic you might be exposing yourself and your family members to, and if selenium is high enough to counter the toxic effects of arsenic as well as other heavy metals like mercury.

*Parts per billion [ppb] = µg of analyte per liter of solution = µg of analyte per kilogram of solid

Related Resources

Watch Environmental Toxin Webinar

References:
Consumer Reports. Results of our tests of rice and rice products. Consumer Reports, November 2012. Available at: http://consumerreports.org/content/dam/cro/magazine-articles/2012/November/Consumer Reports Arsenic in Food November 2012_1.pdf

Report: Arsenic Found in Common Breakfast Cereals. REALfarmacy.com 2014, Nov 7th. Available at: http://www.realfarmacy.com/report-arsenic-found-in-common-breakfast-cereals/#!prettyPhoto.

Jomova K, Jenisova Z, Feszterova M, Baros S, Liska J, Hudecova D, Rhodes CJ, Valko M. Arsenic: toxicity, oxidative stress and human disease. J Appl Toxicol. 2011;31(2):95-107.

Tagged in: Dried Urine Testing Elements Testing Arsenic