Notice: Function _load_textdomain_just_in_time was called incorrectly. Translation loading for the hcaptcha-for-forms-and-more domain was triggered too early. This is usually an indicator for some code in the plugin or theme running too early. Translations should be loaded at the init action or later. Please see Debugging in WordPress for more information. (This message was added in version 6.7.0.) in /var/www/wp-includes/functions.php on line 6114

Notice: Function _load_textdomain_just_in_time was called incorrectly. Translation loading for the hcaptcha-for-forms-and-more domain was triggered too early. This is usually an indicator for some code in the plugin or theme running too early. Translations should be loaded at the init action or later. Please see Debugging in WordPress for more information. (This message was added in version 6.7.0.) in /var/www/wp-includes/functions.php on line 6114

Notice: Function _load_textdomain_just_in_time was called incorrectly. Translation loading for the wordpress-seo domain was triggered too early. This is usually an indicator for some code in the plugin or theme running too early. Translations should be loaded at the init action or later. Please see Debugging in WordPress for more information. (This message was added in version 6.7.0.) in /var/www/wp-includes/functions.php on line 6114
Japanese Researchers Show how Microgravity Affects Astronauts’ Muscles and Nerves
Sunday, December 22, 2024

Trending Topics

HomeScienceJapanese Researchers Show how Microgravity Affects Astronauts’ Muscles and Nerves

Japanese Researchers Show how Microgravity Affects Astronauts’ Muscles and Nerves

spot_img

It’s well-known that spending long periods in microgravity can adversely affect astronaut health and physiology. According to decades of research performed aboard the International Space Station (ISS), like NASA’s much-popularized Twins Study, these effects include the loss of muscle mass and bone density, as well as changes to cardiovascular health, eyesight, organ function, and gene expression. There’s even the possibility that astronauts will experience mood swings and psychological problems while in space or during recovery here on Earth.

According to a recent study by a team of Japanese researchers, one of the lesser-studied effects is how long periods spent in microgravity can damage the skeletal muscles that are important to maintaining our posture. This group of muscles – located mostly in our limbs, back, and neck – are rightly known as our “anti-gravity” muscles because they are load-bearing and allow us to stand upright and move against the force of gravity. This research and the countermeasures they propose could have significant implications for astronauts returning from long-term stays in space.

The research was led by Dr. Yoshinobu Ohira, a Professor of space medicine at Doshisha University’s Research Center for Space and Medical Sciences (RCSMC) in Kyoto, Japan. He was joined by fellow researchers with the RCSMC, the Organization for Research Initiatives and Development (ORID) at Doshisha University, the Kindai University Faculty of Medicine (Osaka), Matsumoto University (Nagano), and Toyohashi SOZO University (Aichi).

The paper that describes their findings recently appeared in the journal Neuroscience & Biobehavioral Reviews. Expedition 38/39 astronaut Koichi Wakata (JAXA) uses the advanced Resistive Exercise Device (aRED) in the Tranquility module of the International Space Station in February 2014. Credit: NASA As they indicated in their study, the team reviewed the neuromuscular properties of the soleus and adductor longus muscles (and their respective dorsal ganglia) in astronauts who had spent extended periods in space.

These muscles are located in the calf and inner thigh (respectively) and are responsible for load-bearing and helping us remain upright in normal gravity. When subjected to microgravity, these muscles are “unloaded” and have nothing to work against, leading to the gradual atrophy of their fibers and nerves. Their study considered how the neuromuscular system’s morphological, functional, and metabolic properties respond to gravitational unloading in microgravity and lower gravity environments.

This consisted of running human and rodent simulation models and examining how motoneuron signals between the skeletal muscle and central nervous system (afferent and efferent activity, respectively) regulated neuromuscular properties. Their research appeared in a special issue titled “Space Neurosciences” that commemorates the Moon Landing (NASA’s Apollo 11 mission). Their analysis confirmed that these signals play a key role in regulating muscle properties and brain activity.

This consists of a decrease in the structural unit of muscles (sarcomeres), resulting in a decrease in their development, eventually leading to muscular atrophy – as seen in the soleus and the adductor longus muscles. Their results indicate that exposure to low-gravity environments affects the muscles and nerves, leading to the deterioration of motor control. This is consistent with symptoms reported by astronauts upon returning to Earth, where they experienced difficulty walking despite regular exercise aboard the ISS – using treadmills, cycles, and resistance training.

Their work also showed that additional challenges might arise when astronauts are exposed to microgravity for six months or more, such as they would be while in transit to Mars. In summary, their review indicates that existing countermeasures are inadequate when combatting the effects of gravitational unloading. Habitats grouped together on the rim of a lunar crater known as the Lunar Village.

Credit: ESA Luckily, their research also points the way toward some possible solutions. For starters, they recommend stimulating the soleus muscle during exercise, which can be done by running or walking slowly on a treadmill with a rear foot-strike landing. Adding bungee cords for added resistance and periodic passive stretching of the soleus muscle also appears to reduce the risk of atrophy.

This research could play an important role in developing appropriate countermeasures for future long-duration space missions. These include continued operations aboard the ISS, which were recently extended to January 2031 (according to NASA’s latest announcement). It will also come in handy as astronauts begin to conduct long-term missions to the Moon, which will entail the creation of lunar habitats – like Artemis Base Camp, the International Moon Village, and the Sino-Russian International Lunar Research Station (ILRS).

Then there are the crewed missions that NASA and China plan to send to Mars in the next decade, which will involve 6 to 9-month transits. Ensuring the long-term health of astronauts is part of a constellation of research that will help ensure the health and safety of astronauts as we venture farther from Earth. This research is especially important considering that someday (perhaps sooner other than later) civilians and potential settlers will follow.

If humanity’s future does lie in space, every aspect of living and working beyond Earth must be taken into account, and potential solutions devised. Further Reading: Doshisha University, Neuroscience & Behavioral Reviews The post Japanese Researchers Show how Microgravity Affects Astronauts’ Muscles and Nerves appeared first on Universe Today. .


From: universetoday
URL: https://www.universetoday.com/156812/japanese-researchers-show-how-microgravity-affects-astronauts-muscles-and-nerves/

DTN
DTN
Dubai Tech News is the leading source of information for people working in the technology industry. We provide daily news coverage, keeping you abreast of the latest trends and developments in this exciting and rapidly growing sector.

LEAVE A REPLY

Please enter your comment!
Please enter your name here

spot_img

Must Read

Related News