Human muscle cells launched into space
LONDON — Tiny human muscle cells have been blasted into space in an experiment that could help people live longer, healthier lives.
The experiment, called MicroAge, was to the International Space Station (ISS) on Tuesday.
Space will be used to understand what happens to human muscles as people age, and why.
Lab-grown human muscle cells, the size of a grain of rice, have been put into small 3D-printed holders the size of a pencil sharpener.
Once in space, they will be electrically stimulated to induce contractions in the muscle tissue, and the scientists will look closely to see what happens.
Spending time without the effects of gravity can cause astronauts’ muscles to get weaker, just as they do in older age, before recovering when they return to Earth.
University of Liverpool researchers, funded by the U.K. Space Agency, will study what happens to muscle tissue in space, and compare the findings to what happens on Earth.
This will help to solve the puzzle of why muscles get weaker with age and look at ways to prevent the process.
Muscles lose mass and strength as people age and this can affect the ability to carry out everyday tasks and causes a range of problems, including an increased risk of falling and longer recovery times from injuries.
Professor Malcolm Jackson, from the University of Liverpool, said: “Aging is one of the greatest challenges of the 21st century and we will learn a great deal about how muscle responds to microgravity and aging from the data we obtain from this study.
“The team has had to work extremely hard over the last three years to overcome the many challenges of sending our science into space.
“For example, the electronic equipment necessary to undertake these studies usually fills a large desk but we have managed to shrink this to the size of a pack of cards.
“This development work on automated and miniaturised systems represents an exciting innovation that could have a wider application in the future.”
Kayser Space, based at the Harwell Space Cluster in Oxfordshire, designed and built the scientific hardware to accommodate the muscle cells to ensure they survive the potential changes in temperature, vibration and G-force during launch.
Science Minister George Freeman said: “The research of our scientist astronauts like Tim Peake on muscle loss in the microgravity of space is helping identify potential cures for musculoskeletal disease, which causes agony to millions and costs the NHS billions.