. 24/7 Space News .
Was Einstein Wrong About Space Travel

Einstein's Twin Paradox is in conflict with space radiation damage effects, which can accelerate the ageing effects.
by Staff Writers
Houston TX (SPX) Mar 24, 2006
Consider a pair of brothers, identical twins. One gets a job as an astronaut and rockets into deep space. The other stays on Earth. When the traveling twin returns home, he discovers he's younger than his brother.

This is Einstein's Twin Paradox, and although it sounds strange, it is absolutely true. The theory of relativity tells us that the faster you travel through space, the slower you travel through time. Rocketing to Alpha Centauri�warp 9, please�is a good way to stay young.

Or is it?

Some researchers are beginning to believe that space travel could have the opposite effect. It could make you prematurely old.

"The problem with Einstein's paradox is that it doesn't fold in biology�specifically, space radiation and the biology of aging," says Frank Cucinotta, NASA's chief scientist for radiation studies at the Johnson Space Center.

While the astronaut twin is hurtling through space, Cucinotta explains, his chromosomes are exposed to penetrating cosmic rays. This can damage his telomeres�little molecular "caps" on the ends of his DNA. Here on Earth, the loss of telomeres has been linked to aging.

So far, the risk hasn't been a major concern: The effect on shuttle and space station astronauts, if any, would be very small. These astronauts orbit inside of Earth's protective magnetic field, which deflects most cosmic rays.

But by 2018, NASA plans to send humans outside of that protective bubble to return to the moon and eventually travel to Mars. Astronauts on those missions could be exposed to cosmic rays for weeks or months at a time. Naturally, NASA is keen to find out whether or not the danger of "radiation aging" really exists, and if so, how to handle it.

Science is only now beginning to look at the question. "The reality is, we have very little information about [the link between] radiation and telomere loss," says Jerry Shay, a cell biologist at the University of Texas Southwestern Medical Center at Dallas. With support from NASA, Shay and others are studying the problem. What they learn about aging could benefit everyone, on Earth and in space.

A Lit Fuse

Like the fuse of a time bomb, telomeres are long strands of repeating DNA that shorten each time a cell divides. When the telomeres become too short, the cell's time is up: It can no longer divide, a state of affairs known as "replicative senescence."

Without this built-in fuse, human cells would be able to continue growing and dividing indefinitely. In fact, scientists believe that cells evolved telomeres as a way of preventing the out-of-control cell growth of cancerous tumors. Because of telomeres, most human cells can only divide 50 to 100 times before the time bomb goes off.

One current theory of aging holds that, as the cells of a person's body start to hit this telomere-imposed limit, the lack of fresh, new cells causes the typical signs of aging: wrinkled skin, failing organs, weaker immune system, etc.

Whether or not telomere loss actually causes aging remains a matter of debate, Shay notes. The fact that shortened telomeres go hand in hand with aging is well documented. People with shorter telomeres, for example, are known to not live as long on average as people with longer telomeres. But mere correlation doesn't prove whether telomeres are in fact the cause.

"It's hard to prove cause and effect in these things. But I think there's a sufficient number of these correlative studies from a variety of different investigators that one has to start believing that short telomeres are a marker of aging," Shay says.

Recent research, performed by Frank Cucinotta and colleagues, showed that iron-nuclei radiation (a chief component of cosmic rays) does indeed damage the telomeres of human cells: reference.

To prove this, they exposed laboratory dishes containing a kind of human blood cell called lymphocytes to beams of both iron nuclei and gamma rays. Until recently, such a thorough analysis of telomere damage would have been prohibitively time consuming. But a new cell-staining technique called RxFISH (Rainbow cross-species Fluorescence In Situ Hybridization) allowed Cucinotta and his colleagues to look at many telomeres simultaneously.

"We had this surprising result that iron particles are much more damaging to telomeres than gamma rays," Cucinotta says. He suggests that this difference might be due to the wider path of damage caused by iron nuclei. Telomere strands wrap into elongated loops, like little knots on the ends of chromosomes. Gamma rays can only strike one side of these loops or the other, but iron nuclei can affect both sides at the same time, inflicting lasting damage on the telomere�possibly causing its complete deletion. This explanation is still speculative, however.

The task now is to quantify the risk telomere damage might pose to astronauts, so that mission managers and the astronauts themselves can make informed decisions about the risks they face. In all likelihood, the effects will be modest, Shay says.

"We're talking about subtle things. These people are probably not going to wind up in wheelchairs or something like that from being in space," Shay says.

For example, astronauts who have had the greatest exposure to space radiation, such as the Apollo astronauts who traveled to the Moon, tend to get cataracts about 7 years earlier than other astronauts, on average. Cataracts are a common symptom of aging.

Of greater concern is possible aging of the brain and spinal cord. Experiments with rats have shown that brain tissue is vulnerable to "aging" by iron-nuclei radiation--this according to research by Jim Joseph of Tufts University and Bernie Rabin at the University of Maryland. (See references below.)

"It is looking more and more likely that this could be a problem for long-term space travel," Cucinotta says.

However, if scientists can tease apart the exact ways that iron-particle radiation affects telomeres, they may be able find a way to avoid or correct it. The solution could be as simple as a pill containing DNA-repair molecules. "There are many ways that we can intervene," Shay says.

One way or another, NASA plans to keep their astronauts feeling young.

Editor's note: This story should not be construed to mean that Einstein's theory of Special Relativity is wrong. It is correct. The Twin Paradox was concocted in Einstein's day to illustrate time dilation only. It was never intended to treat all aspects of space travel. The newly discovered effect of space radiation on telomeres is the "paradox on the paradox," says Frank Cucinotta.

Related Links
NASA Johnson Space Center

Memory Foam Mattress Review
Newsletters :: SpaceDaily :: SpaceWar :: TerraDaily :: Energy Daily
XML Feeds :: Space News :: Earth News :: War News :: Solar Energy News

Bs Mesons Lend Clues To Missing Antimatter
Batavia IL (SPX) Mar 23, 2006
New preliminary data on the properties of a subatomic particle called a B_s meson suggest that the particle actually oscillates between matter and antimatter � something that if verified could help scientists understand why antimatter is almost nonexistent in the current universe, and perhaps provide the first tangible evidence for the scientific theory called supersymmetry.

  • European Space Camp In The Land Of The Midnight Sun
  • Space Tourism Lures A Rising Number Of US Entrepreneurs
  • Resisting Radiation
  • Integral Looks At Earth To Seek Source Of Cosmic Radiation

  • Spirit Churns Up Bright Soil Near McCool
  • Mars Meteorite Similar To Bacteria-Etched Earth Rocks
  • JPL Performs First Two-Antenna Uplink Experiment
  • ITT Supports Successful Mars Reconnaissance Orbiter Insertion

  • ATK Rocket Motors Power Successful Launch of Pegasus XL
  • SpaceX To Attempt Falcon Launch Thursday
  • NASA Is 'Three For Three' In Successful ST5 Launch
  • Washington Touts US-Russian Satellite Launch Cooperation

  • NASA Scientist Claims Warmer Ocean Waters Reducing Ice Worldwide
  • Space Tool Aids Fight For Clean Drinking Water
  • FluWrap: Deadly Strain Divides
  • Satellite Flood Mapping Service Strengthens Eastern France Civil Protection

  • "Zero G and I Feel Fine"
  • To Pluto And Beyond
  • New Horizons Update: 'Boulder' and 'Baltimore'
  • New Horizons Set For A Comfortable Cruise Out To Jupiter And Pluto Transfer

  • Chandra Finds Evidence Of How Quasars Ignite
  • Carnegie Scientists Fine-Tuning Methods For Stardust Analysis
  • Ideas On Gas-Giant Planet Formation Take Shape
  • Team Expands Antarctic Neutrino Observatory

  • SMART-1 Tracks Crater Lichtenberg And Young Lunar Basalts
  • Quantum Technique Can Foil Hackers
  • Noah's Ark On The Moon
  • X PRIZE Foundation And The $2M Lunar Lander Challenge

  • New York School Districts Install GPS Tracking Systems in Buses
  • Glonass System To Open For Russian Consumers In 2007
  • TomTom Unveils a Range of New and Updated Content And Services
  • RFID-Based Asset Management With Innovative Sensory Technology

  • The content herein, unless otherwise known to be public domain, are Copyright 1995-2006 - SpaceDaily.AFP and UPI Wire Stories are copyright Agence France-Presse and United Press International. ESA PortalReports are copyright European Space Agency. All NASA sourced material is public domain. Additionalcopyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement,agreement or approval of any opinions, statements or information provided by SpaceDaily on any Web page published or hosted by SpaceDaily. Privacy Statement