Marburg Virus Claims 11 Lives in Rwanda Amid a Growing Outbreak
Rwanda is currently facing its first outbreak of the Marburg virus, a highly infectious pathogen related to Ebola. Since its discovery in September, the virus has led to the deaths of 11 people. Rwanda’s Health Minister, Sabin Nsanzimana, confirmed that efforts to contain the outbreak include clinical trials of experimental vaccines and treatments. The Marburg virus is known to cause haemorrhagic fever, with symptoms often appearing two to 21 days after infection. Fatal cases generally involve internal bleeding, which can occur within five to seven days of the onset of symptoms.
What is the Marburg Virus?
Marburg virus, part of the Filoviridae family, shares similarities with Ebola but is often regarded as more severe. The World Health Organization (WHO) estimates that fatality rates can range between 24% and 88%. This virus was first identified in 1967 in Marburg, Germany, and simultaneously in Belgrade, Serbia. The disease is primarily transmitted by fruit bats, particularly those found in caves or mines. However, once a human contracts the virus, it spreads through direct contact with bodily fluids.
Current Situation in Rwanda
Rwanda’s Ministry of Health has confirmed 36 cases, with 25 individuals in isolation. The outbreak has disproportionately affected healthcare workers, with 70% of cases occurring in two facilities. Experts, like global health professor Amira Roess from George Mason University, attribute this to insufficient infection control measures in under-resourced settings. Rwanda is also closely monitoring 300 people who have come into contact with infected individuals.
Global Response and Risk
Although the WHO considers the risk in Rwanda to be very high, the global threat remains low. The virus has not been detected outside the country during this outbreak, despite concerns when two passengers in Germany feared they might have been exposed. The situation remains under control, and authorities in Germany confirmed that the passengers tested negative for Marburg.
Preventing the Spread
To prevent infection, experts advise practising good hygiene and avoiding direct contact with infected individuals. While there is currently no approved vaccine or specific treatment for Marburg, research is advancing. Clinical trials are being conducted in Rwanda, with vaccine candidates from institutions like the Sabin Vaccine Institute and Oxford University under development.
Roess stressed the need for global cooperation to fund prevention efforts, warning that if not taken seriously, the virus could spread beyond Rwanda.
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A potential new solar sail-powered satellite mission is offering an extended early warning of extreme space weather events to safely shut down the most vulnerable pieces of our tech — without waiting for them to fail mid-activity and then figuring out why. Going far beyond Earth in the traditional sense of this type of satellite, the solar sail spacecraft would provide almost 20 more minutes of warning time (up to about 60 minutes total) before some very dangerous geomagnetic storms. These eruptions, called coronal mass ejections, cause space weather events that can disrupt satellites, damage power grids, and expose astronauts to cosmic radiation through the ability to ground high-altitude commercial flights. The better the predictions, the more time for critical systems to respond, so overall it is supposed to work out.
Solar Sail Mission SWIFT Aims to Boost Space Weather Forecasting from Beyond L1 Point
According to a report published by The Conversation and contributed to Space.com, the new SWIFT (Space Weather Investigation Frontier) mission will put a satellite with a lightweight solar sail on it out at 2.1 million kilometers from Earth, which is farther than the existing L1 Lagrange point where solar wind is monitored now. That might mean a longer warning — “lead” time, in space weather speak — which would give satellite operators more time to shield their satellites, prevent astronauts from being exposed to high radiation, and allow airlines to chart the safest ways for planes.
The new solar spacecraft, Solar Cruiser, stays in orbit by a balance created from the Sun’s gravity and solar photons bounced off a reflective sail. And far larger than previous sail missions like NASA’s NanoSail-D2 and JAXA’s IKAROS. This steers the satellite post-launch.
Solar Cruiser, part of the SWIFT constellation, will measure solar wind at several vantage points for better interplanetary space weather forecasting. Enquire for more economical on-ground space weather forecasts and missions such as SWIFT that help protect our planet from imploding due to solar emissions.
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The skyscraper size of methane ice might cover around 60% of the equatorial region of Pluto, a larger area than astronomers actually estimated. This study was published on July 5, 2025 in the Journal of Geophysical Reserach. It was based on the data from NASA’s New Horizons spacecraft which captured close images of it around 10 years ago on July 14, 2025. Amid that flyby, the spacecraft located spires of methane ice, each is about 1000 feet tall.
Pluto’s Methane Spires Span Vast Equatorial Zone with Uncertain Pattern
As per NASA’s data they are separated to 4.4 miles in a shape which is somewhat parallel rows and form a geological feature which is called bladed terrain. The features seems to be larger and more spaced out verison of the penitentes of Earth which is a structure of water ice that creates a maximum of 9 feet. Almost the same structure was observed on Jupiter’s moon named Europa and also might be there on Mars.
Additional data collected at infrared frequencies signaled that the dwarf planet’s most of the region was methane rich, which shows that the spires are too. The results show that the bladed terrain of methane ice spires exists in a band that spans about 60% of the circumference of the planet.
Future Missions Needed to Confirm Pluto’s Mysterious Methane Landscape
This is equal to five times the width of the United States continental part, majority spotted on non-encounter hemispheres. However, it is still nort sure if the band is patchy or even. The band spans between 30 degrees south and north of the equator of Pluto.
Bladed terrain formation relies on methane’s long term cycle condensation and sublimation. These are controlled by the season of Pluto and its orbital variations. Straight evidence would be required to confirm the recent observations by the scientists. The most certain way to confirm the extension of bladed terrain into the dark side of Pluto is the future spacecraft mission.
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