Angry Citizens Pressure the World Health Organization to Fully Recognize COVID’s Airborne Spread

Angry Citizens Pressure the World Health Organization to Fully Recognize COVID’s Airborne Spread

Aerosol scientists say that the evidence points to airborne transmission of COVID-19 "beyond any reasonable doubt."

Wikimedia Commons/CDC Public Health Image Library ID 11162

A new citizen movement is gathering steam to try to convince the influential World Health Organization to change its messaging about how the coronavirus is transmitted.

The new petition "COVID is Airborne" (www.covidisairborne.org) started in early November and has approximately 3,000 signatures. During this particularly dangerous acceleration of the pandemic, the petition's backers allege that the WHO is failing the public with mixed messaging and thus inadvertently fueling the wildfire of transmission.

"Early on in the pandemic, [WHO Director General Dr. Tedros Adhanom Ghebreyesus] said that coronavirus is airborne, but then in March, WHO tweeted that COVID-19 is not airborne, saying that it is primarily transmitted via droplets that are too heavy to hang in the air," says petition co-creator Jessica Bassett Allen.

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Damon Brown
Damon Brown co-founded the popular platonic connection app Cuddlr. Now he helps side hustlers, solopreneurs, and other non-traditional entrepreneurs bloom. He is author of the TED book "Our Virtual Shadow" and, most recently, the best-selling "The Bite-Sized Entrepreneur" series. Join his creative community at www.JoinDamon.me.
Movie still from the 1966 film "Fantastic Voyage" depicting a shrunken submarine amid red blood cells

A movie still from the 1966 film "Fantastic Voyage"

20th Century Fox

In the 1966 movie "Fantastic Voyage," actress Raquel Welch and her submarine were shrunk to the size of a cell in order to eliminate a blood clot in a scientist's brain. Now, 55 years later, the scenario is becoming closer to reality.

California-based startup Bionaut Labs has developed a nanobot about the size of a grain of rice that's designed to transport medication to the exact location in the body where it's needed. If you think about it, the conventional way to deliver medicine makes little sense: A painkiller affects the entire body instead of just the arm that's hurting, and chemotherapy is flushed through all the veins instead of precisely targeting the tumor.

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Michaela Haas
Michaela Haas, PhD, is an award-winning reporter and author, most recently of Bouncing Forward: The Art and Science of Cultivating Resilience (Atria). Her work has been published in the New York Times, Mother Jones, the Huffington Post, and numerous other media. Find her at www.MichaelaHaas.com and Twitter @MichaelaHaas!
How the Human Brain Project Built a Mind of its Own

In 2013, the Human Brain Project set out to build a realistic computer model of the brain over ten years. Now, experts are reflecting on HBP's achievements with an eye toward the future.

The Human Brain Project

In 2009, neuroscientist Henry Markram gave an ambitious TED talk. “Our mission is to build a detailed, realistic computer model of the human brain,” he said, naming three reasons for this unmatched feat of engineering. One was because understanding the human brain was essential to get along in society. Another was because experimenting on animal brains could only get scientists so far in understanding the human ones. Third, medicines for mental disorders weren’t good enough. “There are two billion people on the planet that are affected by mental disorders, and the drugs that are used today are largely empirical,” Markram said. “I think that we can come up with very concrete solutions on how to treat disorders.”

Markram's arguments were very persuasive. In 2013, the European Commission launched the Human Brain Project, or HBP, as part of its Future and Emerging Technologies program. Viewed as Europe’s chance to try to win the “brain race” between the U.S., China, Japan, and other countries, the project received about a billion euros in funding with the goal to simulate the entire human brain on a supercomputer, or in silico, by 2023.

Now, after 10 years of dedicated neuroscience research, the HBP is coming to an end. As its many critics warned, it did not manage to build an entire human brain in silico. Instead, it achieved a multifaceted array of different goals, some of them unexpected.

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Kenna Hughes-Castleberry
Kenna Hughes-Castleberry is a writer, podcaster, and science communicator. She currently works as the Science Communicator at JILA and is the Editor-in-Chief of their journal Light & Matter. She is also a freelance science journalist and writes for Inside Quantum Technology as a freelance staff editor. Her beats include deep technology, quantum technology, metaverse technology, and diversity within these industries. Kenna’s work has been featured in various publications including Scientific American, Discover Magazine, Ars Technica, Physics.org, Inside Quantum Technology, The Quantum Insider, The Deep Tech Insider, the Metaverse Insider, The Debrief, and Octonation. She currently sits on the board of SWARM (Science Writers Association of the Rocky Mountains) as well as teaches science writing to graduate students at JILA. You can find her on Twitter and Instagram: @kennaculture