International Space Station

In December 2015, Tim Peake started his six month mission on board the International Space station. On the 15th January 2016, Tim became the first British astronaut to perform a space walk.

During his time in the International Space station, Tim will also be providing scientists with information about the effects of living is space on the human body. In January 2014, the New York Times published an article about the effect space has on human bodies, aptly titled “Beings Not Made for Space”. There are many physiological transformations that can occur in space that don’t necessarily stop once astronauts return to Earth. Eyeballs can become slightly squashed, sleep and eating can become difficult, and radiation may damage vital organs.

In the same ways being in space affects astronauts, a sedentary lifestyle is also damaging to your body. The science seems to show us.

Our bodies are designed to work against gravity every moment of the day. Walking, sitting, sleeping, standing, running… at all times, gravity is pressing its forces against our bodies, making our muscles and our bones strong. We are designed to move: nearly 60% of our skeletal muscles are dedicated to opposing gravity.

So when gravity is removed from the equation, our bodies change. We float effortlessly and move with the tiniest of motions, leaving our muscles and bones useless, and eventually leading to frailty. The same effect happens in bedridden and immobile persons; without gravity weighing on their bodies, their bones weaken and they quickly become unhealthy.

Likewise, when astronauts spend a significant amount of time in space, their bodies change. Astronauts have been known to grow up to 3% taller while in space because without gravity, the spine is free to lengthen. Muscle mass and bone density is lost in space because without gravity, there’s no force insisting they remain strong. Astronauts aboard the International Space Station exercise at least two hours a day to maintain their normal body composition. Indeed, Tim is set to run the London marathon this year from space whilst tethered down to the treadmill. Luckily, if their health does happen to deteriorate in space, it’s restored when they return to an active lifestyle on Earth.

Out bodies ability to bounce back is also good news for those living a sedentary life down here on Earth; adopting an active lifestyle will return the body to normal. As Joan Vernikos, Ph.D. and former Director of NASA’s Life Scientist Division, says in her book Sitting Kills, Moving Heals: “The more your body is working against gravity, the better your chances of staying in good health.”

Vernikos recommends moving from a sitting position to standing position as frequently as possible. “Standing up often is what matters,” she writes, “not how long you remain standing.” Every time you stand up, nearly every nerve in your body is stimulated. Standing regulates the body’s blood pressure and blood volume, but the real value is in stimulating your entire body.

For example, if you stand once and stay standing for an hour, then you’ve only stimulated your body once that hour. But, if you stand up five times in one hour, you’ve stimulated your body five different times. Vernikos goes so far as to suggest changing positions every 15 to 20 minutes throughout the day.

That number of sit-to-stand transitions may seem a bit on the excessive side, but the key takeaway here is to move around as much as possible during the day. Human bodies weren’t designed to sit all day long; modern life has simply evolved in a way that now, many of us do. In reality, we were designed to walk, to run, to hunt, to move.

By Steve Belcher, Sales Manager, Ergotron