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Masks made of ostrich cells make COVID-19 glow in the dark

Researchers found a way to make the invisible visible.

Michelle Petersen
January 18, 2022 @ 6:47 am

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In the two years that SARS‑CoV‑2 has ravaged across the globe, it has caused immeasurable human loss. But we as a species have been able to create monumental solutions amidst great adversity. The latest achievement involves a standard face mask that can detect COVID-19 in your breath, essentially making the pathogen visible.

A COVID-19 sample becomes apparent on a mask filter under ultraviolet light. Image credits: Kyoto Prefectural University.

Japanese researchers at Kyoto Prefectural University have created a mask that glows in the dark if COVID-19 is detected in a person’s breath or spit. They did this by coating masks with a mixture containing ostrich antibodies that react when they contact the SARS‑CoV‑2 virus. The filters are then removed from the masks and sprayed with a chemical that makes COVID-19 (if present) viewable using a smartphone or a dark light. The experts hope that their discovery could provide a low-cost home test to detect the virus.

Yasuhiro Tsukamoto, veterinary professor and president of Kyoto Prefectural University, explains the benefits of such a technology: “It’s a much faster and direct form of initial testing than getting a PCR test.”

Tsukamoto notes that it could help those infected with the virus but who show no symptoms and are unlikely to get tested — and with a patent application and plans to commercialize inspection kits and sell them in Japan and overseas within the next year, the test appears to have a bright future. However, this all hinges on large-scale testing of the mask filters and government approval for mass production. 

Remarkably, this all came with a little help from ostriches.

The ostrich immune system is one of the most potent on Earth

To make each mask, the scientists injected inactive SARS‑CoV‑2 into female ostriches, in effect vaccinating them. Scientists then extracted antibodies from the eggs the ostriches produced, as the yolk transfers immunity to the offspring – the same way a vaccinated mother conveys disease resistance to her infant through the placenta. 

An ostrich egg yolk is perfect for this job as it is nearly 24 times bigger than a chicken’s, allowing a more significant number of antibodies to form. Additionally, immune cells are also produced far more quickly in these birds—taking a mere six weeks, as opposed to chickens, where it takes twelve.

Because ostriches have an extremely efficient immune system, thought to be the strongest of any animal on the planet, they can rapidly produce antibodies to fight an enormous range of bacteria and viruses, with a 2012 study in the Brazilian Journal of Microbiology showing they could stop Staphylococcus aureus and E. coli in their tracks – experts also predict that this bird will be instrumental in fending off epidemics in the future.

Tsukamoto himself has published numerous studies using ostrich immune cells harvested from eggs to help treat a host of health conditions, from swine flu to hair loss.

Your smartphone can image COVID-19 with this simple test

The researchers started by creating a mask filter coated with a solution of the antibodies extracted from ostriches’ eggs that react with the COVID-19 spike protein. After they had a working material, a small consort of 32 volunteers wore the masks for eight hours before the team removed the filters and sprayed them with a chemical that caused COVID-19 to glow in the dark. Scientists repeated this for ten days. Masks worn by participants infected with the virus glowed around the nose and mouth when scientists shone a dark light on them.

In a promising turn, the researchers found they could also use a smartphone LED light to detect the virus, which would considerably widen the scope of testing across the globe due to its ease of use. Essentially, it means that the material could be used to the fullest in a day-to-day setting without any additional equipment.

“We also succeeded in visualizing the virus antigen on the ostrich antibody-carrying filter when using the LED ultraviolet black light and the LED light of the smartphone as the light source. This makes it easy to use on the mask even at home.”

To further illustrate the practicability of the test, Tsukamoto told the Kyodo news agency he discovered he was infected with the virus after he wore one of the diagnostic masks. The diagnosis was also confirmed using a laboratory test, after which authorities quarantined him at a hotel.

Next, the team aims to expand the trial to 150 participants and develop the masks to glow automatically without special lighting. Dr. Tsukamoto concludes: “We can mass-produce antibodies from ostriches at a low cost. In the future, I want to make this into an easy testing kit that anyone can use.”

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