They are collaborating with SiMPore, a company that uses nanomembrane technology initially developed at the University, to devise ways to quickly filter and identify particles of plastic 5 mm or smaller in drinking water samples. They will then test the ability of these particles to cross a microscale barrier that simulates the lining of a human intestine.
“We want to see to what extent the particulates that you consume in your drinking water can pass through your gut and into your other organs,” says Greg Madejski, a postdoctoral fellow in the laboratory of James McGrath, professor of biomedical engineering. Madejski is coordinating the research with the lab of Wayne Knox, professor of optics. Both McGrath and Knox are affiliated with the Materials Science Program.
Microplastics are used as ingredients in cigarette filters, textile fibers, and cleaning or personal care products. Others result when larger plastic items are worn down by sun, wind, and waves. They can be found on mountaintops and at the bottom of the oceans; in the air we breathe and in the water we drink. Exactly how many microplastics are absorbed by humans, and how much harm it is causing them has been hard to assess because the particles— below 100 microns—are so small and difficult to detect.
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