The Role of Air Purifiers in Removing Mycotoxins Those equipped with high-grade HEPA filters reliably remove up to 99.97% of particles 0.10 microns in size, encapsulating mold spores and mycotoxin particles. Additional purification technologies also deactivate and break down mycotoxin compounds themselves.
HEPA air filters can capture much smaller airborne particles, like mycotoxins. HEPA stands for high efficiency particulate air filter. The HEPA filter is often used in medical facilities throughout the country. This is due to its ability to remove many harmful airborne contaminants.
Oxidizing agents such as ozone and hydrogen peroxide were used to decontaminate mycotoxin contaminated raw feed and compound feed [40].
Medical-grade high-efficiency particulate air (HEPA) filters, activated carbon filters, and bi-polar ionization are a few of the best technologies to remove mold spores and mycotoxins from the air.
Chlorine dioxide gas has been explored for its potential to break down mycotoxins, particularly aflatoxins, because of its strong oxidative properties. Some research suggests it may help disrupt and degrade these mold toxins, making it a potential tool for mold & mycotoxin remediation.
Extensive research has confirmed the efficacy of SteraMist ionized Hydrogen peroxide (iHP) disinfection technology in effectively deactivation of mycotoxins present in the air and surrounding environment.
The amino sugar N-acetyl-D-glucosamine (GlcNAc) is the key component of the cell wall of microorganisms including fungi, bacteria, and yeast (Chen et al. 2010), and this has been mainly responsible for the detoxification of mycotoxins (Assaf et al. 2018a, b, c).
Hypochlorous acid is effective against a wide range of pathogens, including mold spores and mycotoxins, and is safe for use around people, pets, and plants. By using foggers and sprayers, you can evenly distribute the solution, covering all surfaces and hard-to-reach areas.
Using Air Purifiers
Air purifiers and air cleaners are devices that remove airborne pollutants from the air in your home, including mold spores. In general, they work by drawing air into the system, which then passes through a series of filters designed to capture and remove microscopic particles from the air.
According to experts, some mycotoxins can remain toxic for several years. Things like ultraviolet light or freezing temperatures do not have much effect on mycotoxins.
The immune system — 70% of which resides in the GI tract — is the first line of defense against invading pathogens and toxins. In healthy animals, innate immune cells present along the GI tract alert the host to the mycotoxin risk, resulting in immune system activation to address the mycotoxin threat.
Selenium, some vitamins (A, C, and E), and their precursors have marked antioxidant properties that act as superoxide anion scavengers. For these reasons, these substances have been investigated as protecting agents against toxic effects of mycotoxins.
The Role of Air Purifiers in Removing Mycotoxins
Purifiers work mechanically to filter out and destroy microscopic particulates as air passes through the unit. Those equipped with high-grade HEPA filters reliably remove up to 99.97% of particles 0.10 microns in size, encapsulating mold spores and mycotoxin particles.
Air purifiers with a true HEPA filter (H-13) and activated carbon filter are likely to be the most effective, but it's important to use them in conjunction with other strategies such as UVC and PCO technology to improve air quality.
Yes, sunlight can kill mold! It's a safe and natural way to fight against mold growth in your home. You can also use products like bleach if needed, depending on what you prefer.
The Winix 5500-2 Air Cleaner is an excellent choice for managing mold in large spaces like living rooms, thanks to its powerful filtration system and wide coverage area of up to 1,740 square feet per hour.
Carbon dioxide based dry cleaning can also be used to clean articles which have sustained water damage, bacteria and mold and mycotoxin exposure. For some, chlorine bleach can be used on select items to destroy mold, bacteria, and mycotoxins.
With advances in technology, we can now test household dust to confirm that mycotoxins are indeed produced and coming out of wall cavities by matching the mold in the wall with the mycotoxins found in the home dust.
Some methods of mycotoxin removal make use of physical separation, nixtamalization, heat treatment, washing, cleaning, milling, radiation, biological or chemical agents, and extraction with solvents [5].
Hydrogen peroxide, commonly used to disinfect wounds, is active against a wide variety of micro-organisms including mold. It acts by releasing oxygen at a rapid rate, which kills mold by oxidizing the surface and breaking down proteins and DNA.