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Scientists race to use zero gravity to kill the worst cancers

A 2020 space mission wants to use zero gravity to disable some of the hardest cancers to fight.

Left: June Tripp, small cell cancer survivor, demonstrates the radiation mask she used during her radiation therapy. Right: Step-one of a six-step sequence of the death of a cancer cell.

Left: U.S. Air Force photo/Heidi Hunt). Right: Source Dr. Raowf Guirguis. National Cancer Institute
  • An Australian research mission, launched in 2020 by Elon Musk's SpaceX, will study effects of zero gravity on four cancers.
  • Other missions with similar objectives are set to launch in 2022 aboard the new China Space Station.
  • In earlier experiments, scientists found that microgravity can kill cancer cells.


Can being in zero gravity help beat cancer? A growing field of research, including an upcoming research mission to the International Space Station, is hoping to prove just that.

Joshua Chou, a biomedical engineer from the University of Technology Sydney in Australia, has conducted successful trials in a lab environment, and aims to establish that zero-g can kill cancer cells.

Zero gravity or weightlessness occurs in the absence of the sensation of weight, when no contact forces act upon an object (or a body).

Chou's work looks to pinpoint the sensors by which cancer cells find each other and grow into tumors within a body. He thinks these receptors are dependent on gravity and once it's removed, the cancer can be stopped as the cells won't be able to "sense" each other.

To study this approach further, a graduate student working with Chou created the first microgravity device in Australia. The apparatus is a tissue box-sized spinning container. The researcher described it as "something that looks like the pods astronauts train in."

Joshua Chou with a prototype of Australia's first microgravity device.

Photo by Sissy Reyes.

The device has allowed Chou's team to investigate how microgravity affects different diseases. The scientists report it has been tremendously effective so far in eliminating cancer cells.

"When placed in a microgravity environment, 80 to 90 per cent of the cells in the four different cancer types we tested – ovarian, breast, nose and lung – were disabled," said Chou.

Normally, these are the hardest cancers to fight. Chou's experiments, without using any drugs, managed to either kill such cells or make them "float off because they can no longer hold on."

Early in 2020, Chou and his team will be able to test their approach in space, launching a specially-designed module with the help of SpaceX. The module will be loaded with the four types of cancer cells (ovarian, breast, nose and lung). Once launched, the scientists will be able to monitor it from Earth via data feeds. The experiment is set to last seven days, after which the cells will be frozen and send back to Earth 21 days later on a shuttle. More studies will be conducted once the cells are back in the lab on the ground.

The research team, from left, Chelsea Ly, Carin Basirun, Jessica Domingo and Joshua Chou.

Photo: Joshua Chou.

If Chou and his team succeed, does that mean cancer patients will be sent to space for treatment? While there may be such eventualities as well, Chou's vision is to develop a drug that patients can take while on Earth. He hopes to use it to "trick" cancer cells into behaving like they are in space.

Chou also thinks that this kind of therapy might not be a "magic bullet" that will work on its own, but rather in conjunction with existing treatments. "It could give current treatments like chemotherapy a big enough boost to kill the disease," he adds in a recent article.

Chou's research is not the only one of its kind. Nine research projects are going to study the effects of weightlessness on cancer aboard the new China Space Station (CSS), set for 2022. One such project is "Tumours in Space" that will look at how microgravity and cosmic radiation can affect the growth of tumors.

Tricia L. Larose from the Norwegian University of Science and Technology, who is the project's Principal Investigator, explained their goal:

"The plan is to send three-dimensional stem cell organoids from both healthy and cancer tissue from the same person into space," she said. "Here we will study mutations and look at how the cell's DNA is affected by weightlessness and cosmic radiation."

Organoids are three-dimensional cancerous tumors that can form small structures mimicking different organs.

Scientists in other countries are also looking at utilizing gravity on cancer. In 2017, a German team, led by professor Daniela Grimm from the University of Magdeburg, studied the effects of space on thyroid cancer cells. This was, in fact, the third time Grimm's team sent such samples into space. Their objective, as Grimm expressed in an interview, is "to find growth-regulating proteins and certain receptors that express and secrete differently in space versus on Earth." If they can find such proteins and receptors, they can develop new drugs to treat the cancers back on our home planet.

The Influence of short-term #Microgravity on Human Prostate Cancer

The Influence of short-term #Microgravity on Human Prostate Cancer Cells during a Parabolic Flight . By Prof. Daniela Grimm from University of Magdeburg . Dr...

The “new normal” paradox: What COVID-19 has revealed about higher education

Higher education faces challenges that are unlike any other industry. What path will ASU, and universities like ASU, take in a post-COVID world?

Photo: Luis Robayo/AFP via Getty Images
Sponsored by Charles Koch Foundation
  • Everywhere you turn, the idea that coronavirus has brought on a "new normal" is present and true. But for higher education, COVID-19 exposes a long list of pernicious old problems more than it presents new problems.
  • It was widely known, yet ignored, that digital instruction must be embraced. When combined with traditional, in-person teaching, it can enhance student learning outcomes at scale.
  • COVID-19 has forced institutions to understand that far too many higher education outcomes are determined by a student's family income, and in the context of COVID-19 this means that lower-income students, first-generation students and students of color will be disproportionately afflicted.
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Masturbation boosts your immune system, helping you fight off infection and illness

Can an orgasm a day really keep the doctor away?

Sexual arousal and orgasm increase the number of white blood cells in the body, making it easier to fight infection and illness.

Image by Yurchanka Siarhei on Shutterstock
Sex & Relationships
  • Achieving orgasm through masturbation provides a rush of feel-good hormones (such as dopamine, serotonin and oxytocin) and can re-balance our levels of cortisol (a stress-inducing hormone). This helps our immune system function at a higher level.
  • The surge in "feel-good" hormones also promotes a more relaxed and calm state of being, making it easier to achieve restful sleep, which is a critical part in maintaining a high-functioning immune system.
  • Just as bad habits can slow your immune system, positive habits (such as a healthy sleep schedule and active sex life) can help boost your immune system which can prevent you from becoming sick.
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Live on Tuesday | Personal finance in the COVID-19 era

Sallie Krawcheck and Bob Kulhan will be talking money, jobs, and how the pandemic will disproportionally affect women's finances.

How DNA revealed the woolly mammoth's fate – and what it teaches us today

Scientists uncovered the secrets of what drove some of the world's last remaining woolly mammoths to extinction.

Ethan Miller/Getty Images
Surprising Science

Every summer, children on the Alaskan island of St Paul cool down in Lake Hill, a crater lake in an extinct volcano – unaware of the mysteries that lie beneath.

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