Since I was a young child Mars held a special fascination for me. It was so close and yet so faraway. I have never doubted that it once had advanced life and still has remnants of that life now. I am a dedicated member of the Mars Society,Norcal Mars Society National Space Society, Planetary Society, And the SETI Institute. I am a supporter of Explore Mars, Inc. I'm a great admirer of Elon Musk and SpaceX. I have a strong feeling that Space X will send a human to Mars first.
Friday, September 27, 2019
Thursday, September 26, 2019
Shapeshifters from Science Fiction to Science Fact: Globetrotting from Titan's Rugged Cliffs to its Deep Seafloors
Shapeshifters from Science Fiction to Science Fact: Globetrotting from Titan's Rugged Cliffs to its Deep Seafloors: Shapeshifters from Science Fiction to Science Fact: Globetrotting from Titan's Rugged Cliffs to its Deep Seafloors
Tuesday, September 24, 2019
Monday, September 23, 2019
Friday, September 20, 2019
Tuesday, September 17, 2019
NASA Wins Two Emmy Awards for Interactive Mission Coverage
NASA Wins Two Emmy Awards for Interactive Mission Coverage: NASA-JPL's coverage of the Mars InSight landing earns one of the two wins, making this the NASA center's second Emmy.
Friday, September 13, 2019
How Long Before People Will Be Living On Mars?
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NASA's Mars 2020 Comes Full Circle
NASA's Mars 2020 Comes Full Circle: Aiming to pinpoint the Martian vehicle's center of gravity, engineers took NASA's 2,300-pound Mars 2020 rover for a spin in the clean room at JPL.
Thursday, September 12, 2019
Tuesday, September 10, 2019
Send Your Name to Mars: Mars 2020
Send Your Name to Mars: Mars 2020: Send Your Name to Mars. View and share your Boarding Pass. See your Frequent Flyer points: go.nasa.gov/Mars2020Pass
Wednesday, September 4, 2019
Tuesday, September 3, 2019
Can Low Gravity Kill Cancer?
Can low gravity kill cancer?
We’ve been sending humans to space for more than half a century now, but there is still so much to learn about how a low-gravity environment impacts our physiology. An Australian scientist has been looking into such matters through simulation studies here on Earth, and with early indications that space can kill off the majority of cancer cells without the need for drugs, is now preparing to launch his experiments toward the International Space Station for further investigation.
There are quite a few studies that have been completed or are ongoing at the International Space Station that explore the effects of low-gravity on living organisms and human physiology.
NASA has previously studied cellular changes of mice and mussels on the ISS to gain new insights into the human immune system and looked into how the microgravity environment can lead to vision impairment. The agency’s twin study, meanwhile, comparing the biology of an identical twin who spent almost a year at the ISS with the other who did not, continues to be one of the more intriguing examples.
But the intricacies of how cancer cells behave in the microgravity environment remains largely unexplored. Biomedical engineer Joshua Chou has been conducting experiments in his laboratory at the University of Technology Sydney to advance our understanding of this, using a micro-gravity simulator to observe how cancer cells respond and the potential reasons why.
“Prior to this research, most focus has been on the genetic expression of cancer under microgravity,” Chou explains to New Atlas. “But no one has looked at the mechanisms, and the strategy of how we are approaching this is to identify the sensing receptors in the cancer, in hope of tricking them.”
Chou and his student Anthony Kirollos exposed ovarian, breast, nose and lung cancer cells to the micro-gravity simulator for a 24-hour period, and found that it caused 80 to 90 percent of them to die, as first reported by the ABC. The scientists believe this is because the lack of gravitational force on the cells influences how they communicate with one another and makes them unable to sense their surroundings, something they call mechanical unloading.
“I have to clarify that microgravity does affect other cells, like bone cells, that is why astronauts lose bone,” Chou tells us. “But having said that, the different tissues and organs in the body respond differently, and it’s just that we found bone and cancers are super sensitive to the effects of microgravity.”
Why this mechanical unloading effect hits cancer cells harder than most is one of the questions Chou hopes to shed some light on when he launches his experiment for the ISS next year. In the first Australian research mission to the ISS, the cells will be packed into a device smaller than a tissue box and studied within the micro-gravity environment for a period of one week.
“Twenty-four hours before launch, we will introduce the cells into microfluidic devices, they will go up to the ISS and the experiment will be carried out for seven days, but won’t return until after 28 days at the ISS,” Chou says. “Then of course we will do analysis upon its return. But we also designed technologies to study them while they are alive on the ISS.”
Sending cancer patients to space for treatment certainly seems a fanciful idea, and Chou isn’t looking to change that through his inventive line of investigation. The hope is that the experiments can shed light on the specific receptors and sensors behind the mechanical unloading effect on cancer cells, so scientists can design drugs that mimic the same effects here on Earth.
"I see what we are developing on working in conjunction with existing therapies and not replacing anything,“ Chou says. “What we hope is that it will increase efficiency of current drugs to give the patient an added advantage by disrupting the normal function of the cancer. Because if the cells can't 'function as a team' then it becomes easier to kill them.”
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