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Growing stem cells for deep space exploration by Staff Writers Darmstadt, Germany (ESA) Mar 18, 2020
Earth's magnetosphere protects us from the most harmful cosmic rays that bombard our planet but beyond this natural shield, astronauts are subjected to radiation that is a hundred times more than at sea level. The risks of radiation are in the spotlight of ESA's research efforts. The first 'radiation summer school' took place last year to train students and stimulate novel ideas for research into the effects of space radiation on humans. Young researchers received an introduction to radiation physics and biology and had to think of biological experiments to run in a number of ESA's partner particle accelerators around Europe. The best proposals won the opportunity to fire up the accelerator and shoot atomic particles at their experiment.
Irradiating stem cells The novelty of this approach is growing heart microtissues to mimic the cellular composition of the human heart. Emiliano wants to find out what type of cells are most susceptible to radiation damage - cardiomyocytes, endothelial cells, smooth muscle cells or fibroblasts - and identify how they influence one another. The data will help create an analytical model to predict how the cells will interact with each other in the face of radiation. "I am hopeful that the system could also be used in the future to screen for molecules that might prevent cells from radiation damage," says Emiliano, from the Hannover Medical School. "It is exciting to use the exclusive facilities on offer, but even more that this research could have direct implications in limiting unwanted effects on the cardiovascular system after radiotherapy. This strategy could be extended to other organs in the future and may help in safeguarding astronauts' health while exploring deep space".
Next... astronaut cells This study could shed light on the cellular and molecular clues underlying the individual response to space radiation. "Each of us has a different susceptibility to radiation," explains Emiliano, "this is a problem for radiation therapy as it can influence how efficient treatments are on Earth, as well as having implications for astronauts exposed to space radiation. "The other question behind this potential follow-on study is whether cells adapt during spaceflight and 'remember' after coming back to Earth - are epigenetic and physiological changes longer lasting? In other words, is spaceflight "captured" as a footprint in our DNA?"
ESA-FAIR Radiation Summer School
Egg stem cells don't exist, study confirms Washington DC (UPI) Mar 02, 2020 There's no such thing as an egg stem cell, according to new research released Monday by scientists at the Karolinska Institute in Sweden. Researchers collected and analyzed more than 24,000 cells from the ovarian cortex of 21 patients. The team also analyzed thousands of cells from the ovarian medulla. The existence of the so-called egg stem cell is a hotly debated topic, but the latest analysis - published in the journal Nature Communications - turned up no evidence of such a cell typ ... read more
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