Confirmed: New Study Reveals Disposable Face Masks Contain Four Times the Acceptable Carcinogen Exposure Levels

August 31, 2022 in News by RBN Staff

source:  gatewaypundit

By Jim Hoft
Published August 30, 2022 at 5:48pm


Teacher masking a child during COVID pandemic.

A recent study confirmed disposable face masks released dangerous levels of the carcinogen titanium dioxide (TiO2).

The masks were required by Dr. Fauci and his cronies during the COVID pandemic.

The study found that the TiO2 levels exceeded the acceptable exposure level by four times or more.

Here is the report from the NIH National Library of Medicine:

Although titanium dioxide (TiO2) is a suspected human carcinogen when inhaled, fiber-grade TiO2 (nano)particles were demonstrated in synthetic textile fibers of face masks intended for the general public.

STEM-EDX analysis on sections of a variety of single use and reusable face masks visualized agglomerated near-spherical TiO2 particles in non-woven fabrics, polyester, polyamide and bi-component fibers. Median sizes of constituent particles ranged from 89 to 184 nm, implying an important fraction of nano-sized particles (< 100 nm). The total TiO2 mass determined by ICP-OES ranged from 791 to 152,345 µg per mask. The estimated TiO2 mass at the fiber surface ranged from 17 to 4394 µg, and systematically exceeded the acceptable exposure level to TiO2 by inhalation (3.6 µg), determined based on a scenario where face masks are worn intensively. No assumptions were made about the likelihood of the release of TiO2 particles itself, since direct measurement of release and inhalation uptake when face masks are worn could not be assessed. The importance of wearing face masks against COVID-19 is unquestionable. Even so, these results urge for in depth research of (nano)technology applications in textiles to avoid possible future consequences caused by a poorly regulated use and to implement regulatory standards phasing out or limiting the amount of TiO2 particles, following the safe-by-design principle.


Via the NIH