Summary
A new study from Spain’s Autonomous University of Barcelona reveals that tea bags made from nylon, polypropylene, and cellulose release billions of micro- and nanoplastic particles when steeped in boiling water.
These particles, which can enter human intestinal cells, may pose health risks, potentially affecting the digestive, respiratory, endocrine, and immune systems.
Researchers urge regulatory action to mitigate plastic contamination in food packaging.
Consumers are advised to use loose-leaf tea with stainless steel infusers or biodegradable tea bags to minimize exposure.
“The study shows that, when brewing tea, polypropylene releases approximately 1.2 billion particles per milliliter, with an average size of 136.7 nanometres; cellulose releases about 135 million particles per milliliter, with an average size of 244 nanometres; while nylon-6 releases 8.18 million particles per milliliter, with an average size of 138.4 nanometres.”
What do you mean no it doesn’t?
So if you extrapolate the data, that’s 1 teabag per 2 ml water. Let’s be generous and say that 1 ml is about what you’d get in a cup of tea. That’s 8.18 million to 1.2 billion particles per teabag depending on the type. Let’s be generous and cut that in half due to the RPM of stirring. Maybe cut that in half again for that unspecified amount of time. Hell, let’s cut it in half again because maybe you brew at lower than 95 C. On the low end, we still have 1 million plastic microparticles per teabag. That’s insane.
I mean nothing about the methodology is even close to representing normal tea brewing behavior.
For starters, a typical cup of tea is around 300-350ml, not 2ml and certainly not 1, so the low end is already down to 23,371 particles even before accounting for the brewing technique.
Secondly, nobody holds their tea at an active boil while stirring it at 750 rpm. That’s virtually blending it. There isn’t a meaningful way to compare that to typical tea brewing behavior but I wouldn’t be surprised to learn that it produced 10,000x more particles.
You can’t draw any real world conclusions from this methodology.
Apples are safe to eat even though the seeds contain arsenic. Take a bunch of seeds and put them in a blender and test it. That test will show them being toxic.
I would like to see a methodology that is closer to real world use. No way to know if it’s a real problem.
Eat the seeds. Your tolerance is going to spite your enemies.