Accepted author manuscript, 458 KB, PDF document
Final published version
Research output: Contribution to Journal/Magazine › Journal article › peer-review
Research output: Contribution to Journal/Magazine › Journal article › peer-review
}
TY - JOUR
T1 - Worms in Space for Outreach on Earth
T2 - Space Life Science Activities for the Classroom
AU - Gaffney, Christopher James
AU - Pollard, Amelia
AU - Deane, Colleen
AU - Cooke, Michael
AU - Balsamo, Michele
AU - Hewitt, Jennifer
AU - Vanapalli, Siva
AU - Szewczyk, Nathaniel
AU - Etheridge, Timothy
AU - Phillips, Bethan
PY - 2018
Y1 - 2018
N2 - Long term spaceflight is associated with the loss of skeletal muscle mass and function. The Molecular Muscle Experiment (MME) seeks to identify the causes of muscle decline in space and test potential therapies to attenuate this in the microscopic worm,C. elegans. This is the first UK-led experiment in the almost two-decade history of the International Space Station. We therefore intend to complete significant and widespread educational outreach activities to promote interest in science, technology, engineering and maths (STEM), and to increase engagement with our space life science experiment. This paper describes three education outreach activities relating to our MME experiment that are suitable for use in the classroom, including: (i) observing normal and mutant worms; (ii) observing the effect of unloading (simulation of microgravity); and (iii) handling spaceflight hardware. Activity packs are provided at a ‘starter’ and ‘advanced’ level to support these activities. This paper also provides three posters that may be used as learning resources for educators that give information on: (i) why worms are used for research; (ii) spaceflight human physiology; and (iii) the specifics of our MME. Details of further planned engagement activities are outlined to increase the awareness of the MME.
AB - Long term spaceflight is associated with the loss of skeletal muscle mass and function. The Molecular Muscle Experiment (MME) seeks to identify the causes of muscle decline in space and test potential therapies to attenuate this in the microscopic worm,C. elegans. This is the first UK-led experiment in the almost two-decade history of the International Space Station. We therefore intend to complete significant and widespread educational outreach activities to promote interest in science, technology, engineering and maths (STEM), and to increase engagement with our space life science experiment. This paper describes three education outreach activities relating to our MME experiment that are suitable for use in the classroom, including: (i) observing normal and mutant worms; (ii) observing the effect of unloading (simulation of microgravity); and (iii) handling spaceflight hardware. Activity packs are provided at a ‘starter’ and ‘advanced’ level to support these activities. This paper also provides three posters that may be used as learning resources for educators that give information on: (i) why worms are used for research; (ii) spaceflight human physiology; and (iii) the specifics of our MME. Details of further planned engagement activities are outlined to increase the awareness of the MME.
M3 - Journal article
VL - 6
SP - 74
EP - 82
JO - Gravitational and Space Research
JF - Gravitational and Space Research
IS - 2
ER -