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How does reduced gravity affect astronauts' muscles and nerve responses
by Staff Writers
Kyoto City, Japan (SPX) Jul 22, 2022

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Among the many functions performed by skeletal muscles, an important one is maintaining our posture. If it weren't for these muscles, Earth's gravitational pull may make it difficult for us to stand and walk around. The group of muscles-mostly present in our limbs, back, and neck-which are responsible for maintaining our posture and allowing us to move against the force of gravity are rightly called 'anti-gravity' muscles.

But what happens to these muscles when there is no gravity (or an "unloading" of gravitational force) for them to work against? The question might sound ridiculous to some, but not to an astronaut aboard the International Space Station (ISS)! In outer space, where gravity is minimal, our muscles (especially the anti-gravitational ones) are not used as much, which might result in their atrophy and changes to their structure and properties. In fact, human calf muscles are known to reduce in volume during a flight in space.

So how can astronauts avoid these neuromuscular problems?

A team of researchers from Japan led by Dr. Yoshinobu Ohira of Doshisha University, Japan set out to seek the answer. The team also included Dr. Takashi Ohira, who works with Doshisha University and Kindai University, Japan; Dr. Fuminori Kawano, associated with Doshisha University and Matsumoto University, Japan; Dr. Katsumasa Goto, who is with Doshisha University and Toyohashi SOZO University, Japan; and Dr. Hiroshi Kaji from Kindai University.

They were recently able to study the responses of neuromuscular properties to gravitational unloading, and share research-based insights into how astronauts can avoid neuromuscular problems during an extended spaceflight. This review-which was made available online on March 10, 2022 and published in Volume 136 of Neuroscience and Biobehavioral Reviews in May 2022-was written in response to an invitation asking the authors to contribute to a special issue. This issue, titled 'Space Neurosciences', was meant to commemorate the first human landing on the Moon, as part of NASA's Apollo 11 lunar mission.

The team reviewed how the morphological, functional, and metabolic properties of the neuromuscular system respond to lowered anti-gravitational activities. They looked at human and rodent simulation models first and also saw how afferent and efferent motoneuron activity regulated neuromuscular properties. Their review suggests that afferent neural activity (which involves the signals sent from skeletal muscle to the central nervous system during muscular activity) plays a key role in regulating muscle properties and brain activity.

Inhibiting anti-gravitational muscle activities results in remodeling of the sarcomeres (which are the structural unit of muscles), resulting in a decrease in their number, further causing a decrease in force development eventually leading to muscular atrophy. A reduction in the amplitude of the electromyograms in anti-gravitational muscles, namely the soleus and the adductor longus, is also seen. This indicates that exposure to low-gravity environments affects not only the muscles, but also the nerves.

Gravitational unloading causes deterioration of motor control, seen as impaired coordination of antagonist muscles and altered mechanics. Walking difficulty was also observed in crews after spaceflight, although they exercised regularly on the ISS. Astronauts aboard the ISS are required to use treadmills, bicycle ergometers, and resistance training equipment to counter the effect of reduced gravity on the neuromuscular system and safeguard their physical health. However, these exercise-based countermeasures are not always effective in preventing certain unwanted neuromuscular changes.

Additional challenges may come into picture when astronauts are exposed to a microgravity environment for six months or more; for example, on their way to or from the planet Mars. This review, therefore, has major implications in the area of space research, with special emphasis on astronaut wellness (recommendations for which are mentioned by the authors).

Changes in muscular properties due to gravitational unloading may be related to a decrease in neural activity, as well as contraction- and/or stretch-dependent mechanical stress. Stimulating the soleus muscle adequately seems to reduce chances of its atrophy. So, while exercising, astronauts should walk or slowly run with rear foot-strike landing (using a bungee cord would help too).

Periodic passive stretching of the soleus also seems to be effective. So, information from a unique perspective, as discussed in this review, may play an important role in the development of appropriate countermeasures against neuromuscular problems for future long-duration human space exploration missions. ISS astronauts will thank the research team for sharing these meaningful insights. Meanwhile, let's wish the researchers good luck for their next mission!

Research Report:Responses of neuromuscular properties to unloading and potential countermeasures during space exploration missions


Related Links
Doshisha University
Space Medicine Technology and Systems


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