:quality(80)/p7i.vogel.de/wcms/59/77/59779f67ac5adaa9c2dd25f329a7e157/0110487266.jpeg "The collaboration has resulted in a secure and reliable combination of Trakcel’s cell orchestration platform Ocellos and Lonza’s manufacturing Moda-Es(R) platform. (Source: Lonza)")
:quality(80)/p7i.vogel.de/wcms/78/7e/787e895c1825e5333b0d923190dec6c8/0110351133.jpeg "Crab shells, like the one pictured here, could be “upcycled” to help make new battery materials. (Source: Adapted from ACS Omega, 2023)")
:quality(80)/p7i.vogel.de/wcms/da/86/da868751e2180706cdaf0d0c235159af/0110312814.jpeg "The crystal structure of the compound K₉N₅₆. (Source: Dominique Laniel)")
:quality(80)/p7i.vogel.de/wcms/c1/1b/c11b62e20d7a419337b0c6bfb602939c/0110259145.jpeg "Official launch of Evonik's new GMP facility in Hanau, Germany. (Source: Evonik)")
:quality(80)/p7i.vogel.de/wcms/2f/47/2f47f02d74dae065924498246dd68bda/0110427140.jpeg "Proteins that glow bright blue or green, as pictured here, could make disease diagnosis quicker and easier. (Source: Maarten Merkx)")
:quality(80)/p7i.vogel.de/wcms/d2/49/d249c220d9205ca75ee52e6d5c602f04/0109710663.jpeg "Illustration of the high-efficiency metal-free battery developed by Kaust researchers. Unlike conventional batteries, this battery combines an ammonium-cation-containing electrolyte with carbon-based electrodes. (Source: © 2023 Kaust; Heno Hwang)")
:quality(80)/p7i.vogel.de/wcms/d0/9e/d09efd9323e1f45fe0afa9ef0b085802/0109627099.jpeg "Researchers developed a Raman microscope that can acquire information hundreds of times faster than a conventional Raman microscope. This extra speed makes it possible to acquire large-area hyperspectral images of living cells, such as the ones seen here. (Source: Katsumasa Fujita, Osaka University)")
:quality(80)/p7i.vogel.de/wcms/df/68/df68ceabd951f8e4a41a9fa15abd95ba/0109568661.jpeg "This small, voice-activated device extracts and pretreats bacterial DNA and could make the laboratory safer for scientists and technicians. (Source: ACS Sensors )")
:quality(80)/p7i.vogel.de/wcms/7d/1c/7d1c904ad56eb9ce02999cf46de539ac/0110439227.jpeg "Coral reefs at a study site off Taiping Island, South China Sea. (Source: Yi Bei Liang)")
:quality(80)/p7i.vogel.de/wcms/03/1f/031ff4a30e1d2a453d379d07280d775e/0110390706.jpeg "This study marks the first time that next-generation gene sequencing technology has been used to analyze soil from such a high elevation on Mount Everest, enabling researchers to gain new insight into almost everything and anything that’s in them. (Source: Pixabay)")
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Vital Study Outer Space Impacts Functioning of the Brain
Scientists at the University of Antwerp and University of Liège have conducted a study on the functioning of the brain in cosmonauts. The study reveals that the brain adapts to weightlessness after being in space for 6 months.
Liège/Belgium – A child who learns not to drop a glass on the floor, or a tennis player predicting the course of an incoming ball to hit it accurately are examples of how the brain incorporates the physical laws of gravity to optimally function on Earth. Astronauts who go to space reside in a weightless environment, where the brain's rules about gravity are no longer applicable. A new study on brain function in cosmonauts has revealed how the brain's organization is changed after a six-month mission to the International Space Station (ISS), demonstrating the adaptation that is required to live in weightlessness.
The University of Antwerp has been leading this Brain-DTI scientific project through the European Space Agency. Magnetic resonance imaging (MRI) data were taken from 14 astronaut brains before and several times after their mission to space. Using a special MRI technique, the researchers collected the astronauts' brain data in a resting condition, hence without having them engage in a specific task. This resting-state functional MRI technique enabled the researchers to investigate the brain's default state and to find out whether this changes or not after long-duration spaceflight.
Learning effect
In collaboration with the University of Liège, recent analyses of the brain’s activity at rest revealed how functional connectivity, a marker of how activity in some brain areas is correlated with the activity in others, changes in specific regions.
“We found that connectivity was altered after spaceflight in regions which support the integration of different types of information, rather than dealing with only one type each time, such as visual, auditory, or movement information,” says Steven Jillings and Floris Wuyts (University of Antwerp). “Moreover, we found that some of these altered communication patterns were retained throughout 8 months of being back on Earth. At the same time, some brain changes returned to the level of how the areas were functioning before the space mission.”
Both scenarios of changes are plausible: retained changes in brain communication may indicate a learning effect, while transient changes may indicate more acute adaptation to changed gravity levels.
“This dataset is so special as their participants themselves. Back in 2016, we were historically the first to show how spaceflight may affect brain function on a single cosmonaut. Some years later we are now in a unique position to investigate the brains of more astronauts, several times. Therefore, we are deciphering the potential of the human brain all the more in confidence”, says Dr. Athena Demertzi (Giga Institute, University of Liège), co-supervisor of this work.
New generation of astronauts
“Understanding physiological and behavioral changes triggered by weightlessness is key to plan human space exploration. Therefore, mapping changes of brain function using neuroimaging techniques as done in this work is an important step to prepare the new generation of astronauts for longer missions”, comments Raphaël Liégeois, Doctor of Engineering Science (ULiège) with a Thesis in the field of Neuroscience, future ESA Astronaut.
The researchers are excited with the results, though they know it is only the first step in pursuing our understanding of brain communication changes after space travel. For example, we still need to investigate what the exact behavioural consequence is for these brain communication changes, we need to understand whether longer time spent in outer space might influence these observations, and whether brain characteristics may be helpful in selecting future astronauts or monitoring them during and after space travel.
Reference
Prolonged microgravity induces reversible and persistent changes on human cerebral connectivity. Jillings S, Pechenkova E, Tomilovskaya E, Rukavishnikov I, Jeurissen B, Van Ombergen A, Nosikova I, Rumshiskaya A, Litvinova L, Annen J, De Laet C, Schoenmaekers C, Sijbers J, Petrovichev V, Sunaert S, Parizel PM, Sinitsyn V, zu Eulenburg P, Laureys S, Demertzi* A, Wuyts*, FL. (2023) Communications Biology, 6:46 (*equal contribution)
(ID:49208209)
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