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China tests new tool for virus traces in air

The race to track the spread of has prompted Chinese scientists to develop a system aimed at detecting traces of the novel coronavirus in the air.

The new technology made its debut during the ongoing 2022 Beijing Winter Olympic Games as part of measures to curb the disease’s spread.

Liu Peng, a researcher at Tsinghua University’s School of Medicine and a member of the research team said:

The virus containment work (during the Games) consists of a number of procedures such as sanitizing facilities and testing participants. And testing air for the virus is an additional tool to provide early alerts.

Although COVID-19 primarily spreads via respiratory droplets that are released when a person coughs or sneezes, researchers have found that it can be transmitted by aerosol particles that linger in the air, especially in closed settings.

The new tool consists of a portable collector designed to suck in ambient air and shake out aerosol droplets consisting of fine particles that can carry the novel coronavirus, mix with the air and be inhaled.

After disinfection, the collected gas is transformed into a fluid and tested via a nucleic acid detector.

The detector is 10 times more sensitive than regular nucleic acid testing tools, according to the research team, which comprised scientists from Tsinghua University, Peking University and the Chinese Academy of Medical Sciences. “The sensitivity of the machine is 20 copies per milliliter, compared to the regular level of 200 to 500 copies per milliliter,” Liu said. That means even samples with low viral load can be flagged by the detector.

He added that the entire testing process, from gathering samples of air to releasing results to local disease control authorities, takes less than four hours.

Before being put into use, the system underwent trials at five venues for the Games and the 2022 Beijing Media Center from October to late January. Liu Peng added the system is likely to be used in hospitals, train stations and airports in the future.


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