{"id":10086,"date":"2023-12-19T21:04:19","date_gmt":"2023-12-19T21:04:19","guid":{"rendered":"https:\/\/power2innovate.com\/bolivias-hypergravity-blood-cell-test-for-astronaut-health\/"},"modified":"2023-12-19T21:04:19","modified_gmt":"2023-12-19T21:04:19","slug":"bolivias-hypergravity-blood-cell-test-for-astronaut-health","status":"publish","type":"post","link":"https:\/\/power2innovate.com\/bolivias-hypergravity-blood-cell-test-for-astronaut-health\/","title":{"rendered":"Bolivia’s hypergravity blood cell test for astronaut health"},"content":{"rendered":"

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\n Dr. Dr. Georgina Ch\u00e1vez and researcher Daira Quenta prepare samples for testing. The latest international group to employ ESA’s hypergravity-generating Large Diameter Centrifuge is an all-female team from from Universidad Cat\u00f3lica Boliviana ‘San Pablo’ in La Paz, Bolivia, with access sponsored by the United Nations as well as ESA. The researchers are investigating whether the high gravity levels experienced during rocket launches might contribute to the anemia afflicting many astronauts in space. Credit: UNOOSA
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The latest international group to employ ESA’s hypergravity-generating Large Diameter Centrifuge is an all-female team from Bolivia, with access sponsored by the United Nations and ESA. The researchers are investigating whether the high gravity levels experienced during rocket launches might contribute to the anemia afflicting many astronauts in space.<\/p>\n

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Based at ESA’s ESTEC technical center in the Netherlands, the LDC is an 8 m-diameter four-arm centrifuge that gives researchers access to a range of hypergravity up to 20 times Earth gravity for weeks or months at a time.<\/p>\n

Access to the LDC was arranged through HyperGES, part of the Access to Space for All initiative sponsored by ESA and the United Nations Office of Outer Space Affairs, UNOOSA.<\/p>\n

At its fastest, the centrifuge rotates at up to 67 revs per minute, with its six gondolas placed at different points along its arms weighing in at 130 kg, and each capable of accommodating 80 kg of payload.<\/p>\n

The five-strong all-female team from Universidad Cat\u00f3lica Boliviana “San Pablo” in La Paz, Bolivia, have spent two weeks studying the effects of hypergravity on red blood cells.<\/p>\n

Astronauts are known to experience numerous adverse health effects while in space. Among them\u2014observed since the earliest days of orbital flight\u2014is anemia, which can cause dizziness and weakness.<\/p>\n

Recent research shows this anemia is linked to “hemolysis,” in which red blood cells are destroyed at a much higher rate than the usual recycling of old and damaged cells. This finding became the starting point for the team’s research.<\/p>\n

Team leader Dr. Georgina Ch\u00e1vez explains, “As part of a biology class I assigned a very simple task which many people might do in school: testing how osmosis affects red blood cells. By putting low-salinity ‘hypotonic’ solution in the fluid surrounding the red blood cells, then water moves into the cells and they eventually burst. We saw the paper in Nature<\/i> on the hemolytic anemia suffered by astronauts, and the parallels with our testing raised our interest. It is possible that hypergravity exposure causes cellular membranes to become fragile, leading to hemolysis.<\/p>\n

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