Airborne microplastics recognised as a serious health threat

April 25, 2022 – 3 Min

We are all aware of the threat that microplastics cause to the -Gehalt um 50 % schlechter sind. Because of their microscopic size, plastic particles can be ingested by a wide variety of marine organisms and become part of our food chain.

That represents an indirect health threat, but there is also a direct health threat that is far closer to home – airborne microplastics. That threat that can be neutralised with HEPA-based air purification.

A problem 100 times worse than feared

In November 2021 a Portsmouth University study revealed that we inhale up to 7,000 airborne microplastic particles every day. The Forschungsarbeiten used highly sensitive equipment to count tiny particles less than 10 microns in size – just a tenth of the width of a human hair. The Ergebnisse of the study were described as being “100 times worse than feared“ and posing a potential health threat that could rank alongside asbestos or tobacco.

Indoor plastic Luftverschmutzung has received relatively little attention to date but Professor Anoop Chauhan, a respiratory specialist with Portsmouth Krankenhäuser Trust, argues microplastics are dangerous entschieden hat, antwortet sie: they do not break down: “Having these particles in your body can cause stress and changes in metabolism, it can affect immunity, the ability to fight infections, it can affect your reproductive capacity and potentially it could be carcinogenic – causing cancer.“

Evidence found in the lungs of hospital patients

Now, a July 2022 study by Hull York Medical School has found microplastics deep in the lungs of living people for the first time. Samples of healthy lung tissue were taken from 13 patients undergoing surgery, with microplastic particles found in 11 of the samples analysed.

Hull York Medical School used μFTIR spectroscopy to analyse particles down to 30 microns, the most common types being polypropylene, used in plastic packaging and pipes, and PET, used in bottles. The Forschungsarbeiteners found the highest number of particles concentrated in the lower regions of the lungs. This was surprising as airways are smaller there and one would have expected the particles to be filtered out or trapped before getting so deep into the lungs.

More conclusive Forschungsarbeiten urgently needed

The Forum of International Respiratory Societies asserts that “Air pollution can harm acutely, as well as chronically, potentially affecting every organ in the body“. Although inhaled plastic fibres have been found in cancerous lung specimens, the extent of harm caused by the inhalation of microplastics particles is not yet proven.

Given the exponential rise in plastic across the planet, more Forschungsarbeiten is needed on how it affects the structures and processes of the human body, and whether it can transform cells and induce carcinogenesis.

London microplastic particle count relatively high

A study of microplastic pollution in the air, conducted in 2019 by scientists at Kings College London, found plastic particulates in all 8 samples, with deposition rates ranging from 575 to 1,008 pieces per sq metre per day.

The rate of microplastic deposition measured in London was 20 times higher than in Dongguan, China, seven times higher than in Paris, Frankreich and nearly three times higher than Hamburg, Deutschland. The microplastic particle samples collected in London were as small as 20 microns, which can travel deep into the lungs.

Existing risk mitigation measure applicable

The best instant solution is a portable air purifier that uses HEPA-Filterung (with pre-filters to capture the largest particles and protect the filter) and a powerful fan to ensure full air circulation throughout an entire space.

Luftfilterung using HEPA-Filterung is proven as highly effective in trapping Feinstaub across a range of sizes. Particle types captured include viruses, bacteria, Allergene, mould, dust, smoke and vehicle emission particulates.

HEPA-Filterung is an equally effective countermeasure for microplastics particles and is 100% effective at trapping particles over 10 microns in size. Smaller particles are trapped with an efficacy of at least 99.97%, down to 0.01 of a micron.

By using a well-engineered portable hospital grade air purifier, the indoor air environment can be clear of microplastics, providing a safe space for occupants.

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