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VASIMR plasma engine: Earth to Mars in 39 days? – SpaceFlight Insider

Posted on July 20, 2017 by Danzig

Collin Skocik

July 19th, 2017

Artists impression of a 200-megawatt VASIMR spacecraft. Images Credit: Ad Astra Rocket Company

In Arthur C. Clarkes classic science fiction novels and movies 2001: A Space Odyssey and 2010: Odyssey Two, the spaceships Discovery and Alexei Leonov make interplanetary journeys using plasma drives. Nuclear reactors heat hydrogen or ammonia to a plasma state thats energetic enough to provide thrust.

In 1983, seven-time Space Shuttle Astronaut Franklin Chang Diaz turned Clarkes speculations into reality with an engine known as the Variable Specific Impulse Magnetoplasma Rocket (VASIMR).

An electric power source ionizes hydrogen, deuterium, or helium fuel into a plasma by stripping away electrons. Magnetic fields then direct the charged gas in the proper direction to provide thrust.

A rocket engine is a canister holding high-pressure gas, Chang Diaz explained. When you open a hole at one end, the gas squirts out and the rocket goes the other way. The hotter the stuff in the canister, the higher the speed it escapes and the faster the rocket goes. But if its too hot, it melts the canister.

The VASIMR engine is different, Chang Diaz explained, because of the fuels electrical charge: When gas gets above 10,000 [kelvins], it changes to plasma an electrically charged soup of particles. And these particles can be held together by a magnetic field. The magnetic field becomes the canister, and there is no limit to how hot you can make the plasma.

Chang Diaz has pointed out that hydrogen would be an advantageous fuel for the VASIMR engine because the spacecraft would not have to lift off carrying all the fuel it needs for the journey.

VASIMR System. Image Credit: Ad Astra Rocket Company

Were likely to find hydrogen pretty much anywhere we go in the Solar System, he said.

A spacecraft using conventional chemical rockets would take eight months to get to Mars during opposition. However, the VASIMR engine would make the journey in as little as 39 days.

Chang Diaz explained: Remember, you are accelerating the first half of the journey the other half youre slowing, so you will reach Mars but not pass it. The top speed with respect to the Sun would be about 32 miles per second [or 51.5 km/s]. But that requires a nuclear power source to heat the plasma to the proper temperature.

The use of nuclear power in space is not without its controversy. In 1997, there was widespread public concern when NASAs Cassini probe, which carried a plutonium battery, made a flyby of Earth to perform a gravity assist. Although NASA denied that the risk to the public, should an accident occur, was no greater thanthat posed every day by other sources of radiation, some scientists, including the popular theoretical physicist Michio Kaku, disagreed.

In April 1970, the Atomic Energy Commission was deeply concerned about the return of Apollo 13 to Earth. Where an Apollo mission would usually leave the lunar modules descent stage on the Moon, the unsuccessful Apollo 13 dropped its lunar module Aquarius, with its plutonium-powered scientific experiments, into the ocean, raising concerns about radioactive contamination.

Elon Musk, CEO of Space Exploration Technologies Corporation (SpaceX), is skeptical about the viability of the VASIMR engine. One reason is the concern about radioactive debris falling to Earth in the event of an accident.

Musk is also skeptical that the VASIMR engine would be a significant improvement over chemical rockets, stating: So people like Franklin basically its a very interesting ion engine hes got there, but it requires a big nuclear reactor. The ion engine is going to help a little bit, but not a lot in the absence of a big nuclear reactor. Musk also points out that the big nuclear reactor would add a lot of weight to a rocket.

Chang Diaz dismisses the concerns about nuclear reactors in space, stating: People are afraid of nuclear power. Chernobyl, Three Mile Island, Fukushima it is a little misunderstood. But if humans are truly going to explore space, we eventually will have to come to grips with the concept.

Another vocal critic of the VASIMR engine is Robert Zubrin, president of The Mars Society, who designed the Mars Direct plan to colonize Mars and wrote the popular book The Case For Mars. He has gone as far as to call the VASIMR engine a hoax.

Zubrin wrote in SpaceNews: To achieve his much-repeated claim that VASIMR could enable a 39-day one-way transit to Mars, Chang Diaz posits a nuclear reactor system with a power of 200,000 kilowatts and a power-to-mass ratio of 1,000 watts per kilogram. In fact, the largest space nuclear reactor ever built, the Soviet[-era] Topaz, had a power of 10 kilowatts and a power-to-mass ratio of 10 watts per kilogram. There is thus no basis whatsoever for believing in the feasibility of Chang Diazs fantasy power system.

Chang Diaz, however, says in his paper: Assuming advanced technologies [emphasis added] that reduce the total specific mass to less than 2 kg/kW, trip times of less than 60 days will be possible with 200 MW of electrical power. One-way trips to Mars lasting less than 39 days are even conceivable using 200 MW of power if technological advances allow the specific mass to be reduced to near or below 1 kg/kW.

LEFT: Artists rendition of a lunar tug with 200 kW solar powered VASIMR. RIGHT: Artists rendition of a human mission to Mars with 10 MW NEP-VASIMR. Images Credit: Ad Astra Rocket Company

In other words, Chang Diaz is allowing for further developments that would enable such a reactor.

Zubrin, however, stated: [T]he fact that the [Obama] administration is not making an effort to develop a space nuclear reactor of any kind, let alone the gigantic super-advanced one needed for the VASIMR hyper drive, demonstrates that the program is being conducted on false premises.

The 2011 NASA research paper Multi-MW Closed Cycle MHD Nuclear Space Power Via Nonequilibrium He/Xe Working Plasma by Ron J. Litchford and Nobuhiro Harada, indicates that such developments are feasible in the near future.

Whether the VASIMR engine is viable or not, in 2015, NASA awarded Chang Diazs firm Ad Astra Rocket Company a three-year, $9 million contract. Up to now, the VASIMR engine has fired at fifty kilowatts for one minute still a long way from Chang Diazs goal of 200 megawatts.

In its current form, the VASIMR engine uses argon for fuel. The first stage of the rocket heats the argon to plasma and injects it into the booster. There, a radio frequency excites the ions in a process called ion cyclotron resonance heating. As they pick up energy, they are spun into a stream of superheated plasma and accelerated out the back of the rocket.

Video courtesy of Ad Astra Rocket Company

Tagged: Ad Astra Rocket Company Chang Diaz Journey to Mars The Range VASIMR

Collin R. Skocik has been captivated by space flight since the maiden flight of space shuttle Columbia in April of 1981. He frequently attends events hosted by the Astronaut Scholarship Foundation, and has met many astronauts in his experiences at Kennedy Space Center. He is a prolific author of science fiction as well as science and space-related articles. In addition to the Voyage Into the Unknown series, he has also written the short story collection The Future Lives!, the science fiction novel Dreams of the Stars, and the disaster novel The Sunburst Fire. His first print sale was Asteroid Eternia in Encounters magazine. When he is not writing, he provides closed-captioning for the hearing impaired. He lives in Atlantic Beach, Florida.

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VASIMR plasma engine: Earth to Mars in 39 days? - SpaceFlight Insider

Return of the rangas as fertility experts call for more red-haired donors – 9news.com.au

Posted on July 20, 2017 by Danzig

Following years of doom-and-gloom research suggesting they were a dying breed, redheads are on their way to conquering the world - and the numbers back them up.

Fertility clinics and international sperm donor networks say rangas are in demand from people looking to undergo IVF treatment.

This stands in stark contrast to just a handful of years ago in 2011, when one of the world's largest sperm banks, Denmark's Cryos International, announced it would no longer be accepting donations from redheads.

They claimed there was not enough interest from parents wanting red-haired children.

But now, according to other experts, gingers are back with a bang.

Monash IVF Group fertility specialist Dr Gareth Weston agrees.

"If there are any redheads out there willing to donate, we'd be happy to hear from you," he told A Current Affair.

"We recently had a red haired sperm donor approach us at Monash IVF and his sperm was snapped up by four women within the first month."

Nine Digital Pty Ltd 2017

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Return of the rangas as fertility experts call for more red-haired donors - 9news.com.au

Thank Prince Harry: Flame-Haired Men Are More Popular Than Ever – POPSUGAR Australia

Posted on July 20, 2017 by Danzig

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They are rampant in Game of Thrones (even without Ed Sheeran), though Ed and the likes of other famous red-haired men like Prince Harry and Michael Fassbender have their part to play in making ginger hair hot again. The colouring is seriously in demand, with sperm donation companies putting out the call for more ginger DNA.

Back in 2011, red hair was such an undesired baby trait that one of the world's biggest sperm banks, Cryos International, stopped accepting donations from redheads, but now it's a very different story. Companies like Co-ParentMatch.com are calling out for donations from flame-haired men to stop the colouring dying out. And we're with them. It's not just the famous red-headed men that are draw cards for people wanting ginger bubs, but the women too. Isla Fischer, Emma Stone, Sophie Turner, Julianne Moore and Amy Adams are just some of the flame-haired screen sirens ruling Hollywood. We're all in.

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NASA wanted to talk about science. A congressman wanted to ask about Martian civilizations. – Washington Post

Posted on July 20, 2017 by Danzig

Rep. Dana Rohrabacher (R-Calif.) asked about civilizations on Mars during a July 18 House Science, Space and Technology Subcommittee hearing. (House Committee on Science, Space, and Technology)

Some of NASA's brightest minds were invited to Capitol Hillon Tuesday to tellmembers of Congress about water that once ran across Mars, and the possibility of life on Europa and missions to explore them.

Good questions, the chairman of the space subcommittee said after an hour or so. Then he turned the microphone over toRep.Dana Rohrabacher, who would savehismost important question for the end.

Thank you, the California Republicanbegan.

One of the benefits, I should say, of your activities, is that, well you have all these robots all over the universe and beyond.

Aboy seated behind Rohrabacherhad been fiddling with his hair, butnow looked up at the congressman.

Let me just note, Rohrabacher said by way of disclaimer, that I've been around for a while.

So he had.

Elected to his office14 consecutive times, hehas sat on the House Space and Technology Committee for decades and run for the chairmanship at least twice, without success.

I love science,Rohrabacher once told Science Magazine.

His passion for the subjectis occasionally expressed in puzzling ways.

Rohrabacher once told a hearing that dinosaur flatulence might have caused global warming a bad joke, he said later.

In a 2014 speech titled Global Warming as a Power Grab, herailed againstthe government putting fluoride into our water.

[No, NASA is not hiding kidnapped children on Mars]

On Tuesday, seated across from NASA officials planning missions to Mars, a moon aroundJupiter and an asteroid between them,Rohrabacher shared his thoughts on space with them.

The space shuttle and space station programs were inspiring, he said but also very expensive.

NASA had a lot of projects going on, he said. Maybe too many; the agency should prioritizemore though, he said, I'm certainly not an expert enough to tell you what those priorities should be.

He asked about NASA's plan to land a rover on Mars in 2020 and aboutMartianrocks and space fuel. He said we should go back to the moon.

And then, atthe end, the most important thing.

I ask for permission for one minute for this question, Rohrabachersaid.

It was granted, and he began.

[A ridiculous YouTube video claiming we found aliens kept making the news, so NASA debunked it]

You have indicated that Marswas totally different thousands of years ago, he told the scientists.

Behind him, the boy whispered something to a seat mate.

The congressman continued: Is it possible that therewas a civilization on Mars thousands of years ago?

Silence filled the room,

A scientist with the Mars 2020 project,Kenneth Farley, leanedtoward his microphone and ventureda reply.

So, the evidence is that Mars was different billions of years ago. Not thousands of years ago, Farley said.

Billions, well. Yes, Rohrabacher said.

Hebegan to formanother word, but Farley cut him off.

There's no evidence that I'm aware of.

The scientistdid not mention that he had already explained this half an hour earlier, when he told thepanel that ancient Mars once hadrivers, lakes and hot springs but that nothingmore advanced than microbes was likely to havelivedthere.

And yet, Rohrabacher persisted.

Would you rule that out? he asked. See, there's some people, well, anyway "

I would say that is extremely unlikely, Farley said.

Okay. Well.

Rohrabacher still had 30 secondsto ask about ancient civilization, but he gave upat that point.

Thank you for the good job you're doing, he told the scientists. God bless.

The next congressman to address the hearingwould quote a 19th century poem For I dipped into the future, far as human eye could see and wonder aloud about the meaning of life.

But when reporters wrote about Tuesday'shour-and-a-half discussion, they wrote mostly about Rohrabacher's final minute.

No, Congressman, There's No Evidence of an Ancient Mars Civilization, wrote Space.com, noting for good measure that previous reports of canals and a sculpturedface on the Red Planet had also been debunked.

Ars Technica accused thecongressman ofmarring an otherwise respectable discussion, and recalledthat earlier this month a NASA official had been forcedto denyrumors that children were being kidnapped to the planet.

Other outlets were even less kind to Rohrabacher, whose officesuggested toThe Washington Post that aswith the dinosaur comment in 2007 the congressman had notseriously entertained the notion.

Because of his position on the space committee, he not infrequently gets inquiries about this from far and wide, Rohrabacher's spokesman, Ken Grubbs, wrote in an email Wednesday.

He was looking for something definitive. Apparently, many of those who covered the exchange didnt hear the wink in his voice.

A previous version of this story incorrectly attributed aSpace.com story to Science.com.

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NASA wanted to talk about science. A congressman wanted to ask about Martian civilizations. - Washington Post

Elon Musk knows what’s ailing NASAcostly contracting – Ars Technica

Posted on July 20, 2017 by Danzig

Enlarge / SpaceX's Falcon 9 rocket launches the EchoStar 23 satellite in March, 2017.

SpaceX

The seas were calm in early December 2010 when a spacecraft fell out of the sky, deployed its parachutes, and splashed into the Pacific Ocean. No American spacecraft had returned this way to Earth in 35 years, not since the splashdown of the final Apollo mission. The Dragon bobbing in the blue water didnt carry any astronauts, just a whimsical payload of Le Broure cheese. But it had made history all the same, as no private company had ever launched a spacecraft into orbit and safely returned it to Earth.

Just two years earlier, Elon Musks SpaceXhad been left for dead. Like so many other new space ventures that had come before, it had made big promises but delivered few payoffs. Bankruptcy would certainly have swallowed SpaceX had NASA not thrown Musk a $1.6 billion lifeline two days before Christmas in 2008a contract for a dozen cargo delivery flights to the International Space Station.

For some critics, SpaceX seemed just another company standing in line for a government handout. NASA didnt see it this way. In the months after the Dragons historic flight, NASA studied the cost of developing the Falcon 9 rocket, SpaceX'sbooster with nine engines that had lifted the Dragon spacecraft into orbit. The analysis concluded that had NASA developed the rocket through its traditional means, it would have cost taxpayers about $4 billion.

Instead of doing that, however, NASA simply asked SpaceX for a servicecargo delivery to the space stationand left the details to the company. And so Musk and his small workforce, with a Silicon Valley mindset that pushed employees hard, set about delivering. The analysis found that SpaceX spent just $443 million to develop the Falcon 9 rocketa little more than a tenth of what NASA would have expended for a comparable rocket.

Dragons flight in 2010, therefore, not only gave America its first splashdown in more than three decades, it offered a potent argument for a new way of doing business in space. The world of federal contracting practices may seem arcane, but today as NASA and the US Air Force confront the need to modernize their spaceflight capabilities, it is becoming increasingly important to understand how agencies award contracts and measure results.

Maye Musk and Elon Musk attend the 2017 Vanity Fair Oscar Party in Beverly Hills. This gallery showcases some of the players in the debate over cost-plus versus fixed-price contracts.

Taylor Hill/Getty Images

Vice President Mike Pence, center, will oversee all space decisions made by the Trump administration.

NASA

Robert Lightfoot, center, is acting administrator of NASA. He is largely a defender of the cost-plus model.

NASA

Scott Pace, right, is the new executive director of the National Space Council. He is seen largely as supportive of cost-plus contracts.

George Washington University

Although he initiated commercial cargo programs for NASA, the agency's former administrator Mike Griffin has defended cost-plus contracts for deep space.

NASA

Former NASA Deputy Administrator Lori Garver, left, sought to broaden NASA's use of fixed-price contracts in 2009 and 2010.

NASA

Kennedy Space Center Director Robert Cabana (far Left) Johnson Space Center Director Ellen Ochoa, Marshal Space Flight Center Director Todd May, and Orion Program Manager Mark Kirasich watch the NASA Super Bowl Virtual Reality ride in Houston in 2017. Their centers all benefit from cost-plus contracts.

NASA

Alabama Senator Richard Shelby, center, is a staunch supporter of NASA's use of fixed-price contracts.

Richard Shelby

Jeff Bezos, of Blue Origin, supports the use of fixed price contracts for lunar exploration.

Blue Origin

Dennis Muilenburg, chief executive of Boeing, enjoys both cost-plus and fixed-price contracts from NASA.

NASA

Marillyn A. Hewson, chairwoman, president, and chief executive officer of Lockheed Martin, looks on as Mike Pence holds a model of the Orion spacecraft. Lockheed has benefited greatly from cost-plus contracts.

Red Huber/Orlando Sentinel/TNS via Getty Images

Tory Bruno (L), CEO of United Launch Alliance, with Jeff Bezos at a news conference in 2014. Bruno's company is trying to convert from the world of cost-plus contracts to fixed-price contracts as it competes with SpaceX.

Win McNamee/Getty Images

At the heart of this issue lies a tussle between traditional aerospace companies and their penchant for cost-plus contracts and a desire by new space firms such as SpaceX for fixed-price awards. This debate seems likely to become a key flashpoint in the emergent space policy of the Trump administration as it decides over the coming months what it wants to do in space and which companies will help achieve those ambitions.

As is his wont, Elon Musk has chosen not to stand on the sidelines. This past weekend, in fact, he doused what had been a smoldering debate with gasoline.

It began with a seemingly innocuous question. On Saturday, during a meeting of the National Governors Association, Arkansas Asa Hutchinson asked Musk about NASA. The agency seemed to be floundering, Hutchinson noted, and he wanted Musks advice for getting it back on track.

Musk replied that he loved NASA, and he commended its recent successes in astrophysics and planetary exploration. But to really energize the public about the space agency, Musk said, it must get humans more involved in exploration. He suggested setting a serious goal for NASA, such as building a lunar base and sending people to Mars and providing the resources to accomplish this. He didnt argue that NASA needed more money, but rather, it must change the way it awards contracts.

Weve got to change the way contracting is done, Musk told the governors. You cant do these cost-plus, sole-source contracts because then the incentive structure is all messed up. As soon as you dont have any competition, the sense of urgency goes away. And as soon as you make something a cost-plus contract, youre incenting the contractor to maximize the cost of the program, because they get a percentage.

Elon Musk at the National Governors Association.

In essence, a cost-plus contract requires a particular contractor to develop a piece of space hardware. Then such an arrangement pays all of the contractors costs plus a fee, typically about 10 percent. For example, with NASAs Space Launch System rocket, Boeing is responsible for the central core stage, Orbital ATK has the side-mounted solid rocket boosters, and Aerojet Rocketdyne the main engines. The contractor gets paid regardless of success. For programs difficult to canceland Congress has regularly asserted its support for the SLS rocketdelays just mean more funding.

So, they never want that gravy train to end, Musk explained. They become cost maximizers. And then you have good people engaged in cost maximization, because you just gave them an incentive to do that and told them theyll get punished if they dont."

NASA says the buzzing of drones is more annoying than the sound of other vehicles – Digital Trends

Posted on July 20, 2017 by Danzig

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NASA says the buzzing of drones is more annoying than the sound of other vehicles - Digital Trends

William Shatner Narrates History of NASA’s 100-Year-Old Langley Research Center (Video) – Space.com

Posted on July 20, 2017 by Danzig

Space, the final frontier? We couldn't get there without airplane research.

"Star Trek" captain William Shatner narrates a new 45-minute documentary about NASA's Langley Research Center, which celebrates 100 years of solving "fundamental problems of flight" this year, according to the agency.

Naturally, since the time of its inception, the laboratory no longer solely aeronautical ended up solving problems in space as well. One of its most enduring legacies was the space shuttle, which flew between 1981 and 2001 a versatile winged craft that could land on a runway. [NASA Centers to Visit for an Out-of-This-World Vacation]

And Langley's legacy stretches even farther into the solar system think landings on Mars and exploring deep space on NASA's forthcoming Space Launch System. A few highlights of its history are below.

Langley Memorial Aeronautical Laboratory was born in 1917, just months after the United States entered World War I. Langley created many aircraft technologies that we take for granted today, according to a NASA release: propellers, metal airplanes, wing tips, glass cockpits and even faster-than-sound flight. The agency's contributions continued during World War II, particularly with the development of what was at the time the state-of-the-art P-51 Mustang fighter-bomber.

When the war was over, Langley partnered with the military to create the Bell X-1 aircraft, which Chuck Yeager flew in when he broke the sound barrier in 1947. Sensing an opportunity, Langley continued pushing back barriers in hypersonic research. By 1959, the X-15 rocket plane was able to fly an incredible five times faster than Yeager did during his pioneering flight.

Data from the X-15 was used to help launch the young U.S. space program; NASA had been created only the year before, in 1958. Langley was a part of a predecessor agency, called the National Advisory Committee for Aeronautics (NACA), which was transformed into NASA when Americans marshaled resources to deal with the technological threat they perceived coming from the-then Soviet Union.

The government quickly tasked NASA with landing humans on the moon by 1969, a goal reached on July 20 of that year, when Neil Armstrong put his first boot prints on the moon. Armstrong practiced walking and landing on the lunar surface at Langley's Lunar Landing Research Facility.

Langley's work also led to the choice of Armstrong's landing site, thanks to the Lunar Orbiter program, which sent thousands of pictures back of our nearest large celestial neighbor.

And Langley was home to famous aerospace engineer John Houbolt, whose suggested mission design led to simple and small lunar modules for the landing crew not the multistage rockets originally envisioned. His "lunar-orbit rendezvous" technique made it possible for the United States to meet the 1969 goal in plenty of time, since the design was much simpler than others that had been suggested.

To understand other planets, scientists often compare them to Earth. But, we can't make the comparisons without proper data. Langley's work on the space shuttle NASA's main human transportation system for three decades also led to advancements in materials and landing systems, NASA officials said in the statement.

The space shuttle initially launched satellites to observe Earth's climate, a task later taken over by single-use rockets after the 1986 Challenger explosion. Langley collected and archived the data, providing valuable records to track changes over time as global warming progressed.

To lessen an aircraft's effect on Earth's climate, Langley tested out technologies such as hybrid wing bodies (manta ray-shaped airplanes) to increase fuel efficiency. While the focus today is more on air traffic management, NASA recently announced five green-technology concepts to change the aviation industry: morphing wings, alternative fuel cells, 3D-printed electric motor parts, lithium-air batteries and aircraft antenna made of aerogels.

But Langley's work has moved far beyond Earth. In 1976, the Viking 1 spacecraft made the first successful touchdown on Mars, with the engineering based in part on Langley's data about Earth's atmosphere. The Mars Curiosity rover, which landed in 2012, had a heat shield embedded with sensors developed at Langley.

This data will help fuel NASA's push for exploration beyond Earth orbit, possibly including Mars. The agency is developing a Space Launch System rocket that will be tested for the first time in 2019. The eventual goal is to send four astronauts aloft at a time in the Orion spacecraft, bound for the moon, Mars or other places.

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William Shatner Narrates History of NASA's 100-Year-Old Langley Research Center (Video) - Space.com

Liftoff? Icy Jets of Saturn Moon Enceladus Fly in NASA Photo – Space.com

Posted on July 20, 2017 by Danzig

Saturn's moon Enceladus releases jets of water ice as imaged by the Cassini spacecraft in April. The moon shines in reflected Saturn light, while the jets are backlit by the sun.

A photo of Saturn's moon Enceladus looks poised for liftoff as jets fly from its southern hemisphere.

While Enceladus can't fly at least outside of its ordinary orbit around the ringed planet its remarkable icy jets intrigue scientists because they hint at a subsurface ocean that could support life.

The photo, taken by the Cassini spacecraft, spotlights the moon's Saturn-facing hemisphere, which is 313 miles across (504 km), according to NASA's image caption. The jets are backlit by sunlight, while the front shines with light reflected back from Saturn. Cassini was 502,000 miles (808,000 km) from Enceladus when it captured the visible-light image with its narrow-angle camera on April 13, and the image shows 3 miles (5 km) per pixel.

Enceladus' fierce jets emerge from a series of ridges in its southern hemisphere nicknamed "tiger stripes." Cassini first spotted the jets in 2005, and dove through the plumes multiple times; in 2015, it passed within 30 miles (50 km) of the moon's surface while sampling their composition. Data from that flyby suggested that its subsurface ocean might have enough energy, suggested by the existence of molecular hydrogen, to host life similar to microbes on Earth. Besides water ice, the plumes contain traces of methane, ammonia, carbon monoxide, carbon dioxide, salts and simple organic molecules.

Cassini is a collaboration among NASA, the European Space Agency and the Italian Space Agency, and it has orbited Saturn since 2004. The probe is in the Grand Finale phase of its mission, as it makes close flybys between Saturn and its rings before plunging down into the planet's atmosphere Sept. 15. That dive is partially motivated by a desire to protect the little icy moon as Cassini ran out of fuel, its orbit could have become unstable and led to it crashing and contaminating moons in Saturn's neighborhood.

Email Sarah Lewin at slewin@space.com or follow her @SarahExplains. Follow us @Spacedotcom, Facebook and Google+. Original article on Space.com.

Goodbye HERA, hello sleep: NASA’s HERA XIII crew returns home to slumber – Phys.Org

Posted on July 20, 2017 by Danzig

July 19, 2017 Moments after turning the vessel over to NASA after 45-days inside, the HERA XIII crew is given their mission patch to place on the door. Credit: NASA

After 45 days in NASA's Human Exploration Research Analog (HERA), the four-man crew can hardly hold their eyes open. This mission was the first of its kind to last 45 days, as well as incorporate sleep reduction for research purposes.

"The sleep deprivation was really difficult," said, James Titus, HERA crew member. "It really hindered our normalcy. We are used to working and living our lives at a higher level. During this mission the sleep reduction, the no-nap rule and limited caffeine - went hand in hand to really slow us down," he said.

HERA is one of several ground-based analogs used by NASA's Human Research Program (HRP) to research ways to help astronauts move from lower-Earth orbit to deep space explorations. A spaceflight analog is a situation on Earth that produces physical and mental effects on the body similar to those experienced in space. Participants are volunteers that must pass a physical and psychological assessment to qualify.

During this thirteenth HERA mission, crew members went through many of the motions of a real deep space mission without ever actually leaving the Johnson Space Center. This was the fourth in a series of studies, called campaigns, with progressively longer simulated mission lengths. In this campaign, this was the first of four 45-day simulated missions. Previous campaigns studied seven-day, 14-day, and 30-day missions. Longer mission lengths allow for more research studies and more data points relevant to longer duration spaceflight missions.

Several research studies utilize a limited sleep protocol for the four missions of Campaign 4. During Mission 1, crewmembers were allowed to sleep five hours per night, five days per week with a recovery period of two days where they could sleep eight hours each night. No naps and limited caffeine are included in this protocol.

This practice allows researchers to test the use of habitat lighting as a method of combating crewmember fatigue. It also allows for the evaluation of the usability of bio-mathematical models to predict crewmember fatigue. Team cohesion, performance, and interpersonal relationships are also tested under these conditions.

Despite the no siesta rule, the crew took their mission tasks seriously. As with past crews, they particularly enjoyed the extravehicular activity (EVA) on an asteroid conducted with virtual reality technology. "It was fun learning to maneuver in three dimensions, and going through the decompression protocol just like a real astronaut would. It was fascinating to me," said Timothy Evans, HERA crew member.

Not only are the HERA crews isolated from the outside world, they must unplug during their mission. "It was really a little bit disorienting," said Mark Settles, HERA crew member. "You get in this mode of addressing electronic communications on a daily basis. It was like stepping back 20 years by having a reduced level of constant input of demands on your time from electronic communication."

This was a rather competitive group. One of their tasks was to use the robotic arm to grab a transport vehicle while dealing with sleep deprivation. They had 12 chances to do so and were given a score on their efforts. "The score was very important to all of us. We'd strive to get better. The ROBoT [Robotic On-Board Trainer] and cognition had a level of inter-competiveness with us," said John Kennard, HERA crew member.

When asked their favorite thing to do while on the mission, there was a consensus: Sleep. They also enjoyed playing board games and watching movies together while not working on mission tasks. Upon splashdown at the end of the simulated mission, they planned to call their families and grab some greasy, salty fast food. But soon afterward, they all planned on catching some Zs!

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The Global Market for Nanotechnology and Nanomaterials, 2010-2027 – Broadway World

Posted on July 20, 2017 by Danzig

NEW YORK, July 18, 2017

Read the full report: http://www.reportlinker.com/p04143834/The-Global-Market-for-Nanotechnology-and-Nanomaterials-in-Energy.html

The report offers: In-depth analysis of the global market for nanotechnology and nanomaterials, applications, producers, product developers and products Assessment of nanomaterials market including production volumes, competitive landscape, commercial prospects, applications, demand by market and region, commercialization timelines, prices and producer profiles. Examples of successful markets and products. Analysis of global trends, including historical data from 2010, and projections to 2027. Exploration of nanomaterials and nanotech-enabled products market structures and value chains. Collaborations in nanotechnology enabled product development. Assessment of end user markets for nanotechnology and nanomaterials including market drivers and trends, applications, market opportunity, market challenges and application and product developer profiles. Unique assessment tools for the nanomaterials market, end user applications, economic impact, addressable markets and market challenges to provide the complete picture of where the real commercial opportunities in nanotechnology and nanomaterials are. Main application and product opportunities in nanotechnology.

Read the full report: http://www.reportlinker.com/p04143834/The-Global-Market-for-Nanotechnology-and-Nanomaterials-in-Energy.html

About Reportlinker ReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need - instantly, in one place.

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Indestructible virus yields secret to creating incredibly durable … – Phys.Org

Posted on July 20, 2017 by Danzig

July 19, 2017 Peter M. Kasson, M.D., Ph.D., (left) and Edward H. Egelman, Ph.D., have unlocked the secrets of a nearly indestructible virus, potentially allowing scientists to harness its remarkable properties to create super-durable materials and better treat disease. Credit: Josh Barney, UVA Health System

It's like the Superman of viruses, astonishingly tough and able to survive in an environment that would dissolve flesh and bone. And now scientists have unlocked the secrets of its indestructibility, potentially allowing them to harness its remarkable properties to create super-durable materials and better treat disease.

The discovery reveals something never before seen in the natural world. Potential uses include everything from pinpoint delivery of cancer drugs so they only attack tumors to building materials that could better withstand an earthquake's tremors.

"Anytime you find something that behaves really differently, especially something this stable, it's interesting and potentially useful," said researcher Peter M. Kasson, MD, PhD, of the University of Virginia School of Medicine. "When you're doing curiosity-driven science that finds something new, in the back of your mind, you think, 'Hey, this is really different. What might it be good for?' And this has many potential applications."

Advancing Nanomedicine

The virus, Acidianus hospitalis Filamentous Virus 1, lives in hot springs in Yellowstone National Park - bubbling pools of acid in which the temperature often exceeds 175 degrees. The virus was first isolated in 2002 by David Prangishvili from the Pasteur Institute and his colleagues. Now, the UVA researchers have determined it is protected by a type of membrane science has never before encountered. Its outer coat is half as thick as known cell membranes, yet it is amazingly stable. That's because of the unusual, horseshoe-shaped arrangement of its membrane molecules, providing a small size yet remarkable durability that scientists might duplicate for many other purposes. For example, it may offer a way to make microscopic particles of medicine shelf stable, so that they don't need refrigeration.

One of the most likely applications is in the field of nanomedicine, which might use the discovery to create super-strong wrappers for molecules of drugs so that they can be delivered exactly where they're needed. For example, directly to a cancer tumor. The durable wrappers would withstand the body's best efforts to degrade the foreign substance.

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"There are all sorts of potential applications in material science, building things, medicine," said researcher Edward H. Egelman, PhD, of UVA's Department of Biochemistry and Molecular Genetics. "We can use natural products, cellular proteins, etcetera to design many new things that are useful. Wool, essentially, is hair, and that's used extensively to make fabrics. That's a protein. So there are many implications for using this to build new materials."

He noted that Teflon is a good example of similarly repurposed science. "Teflon was not invented as a way to make non-stick cookware," he said. "It was found by chemists on accident, but it proved very useful."

Cool Science

To unlock the secrets of the indestructible virus, Egelman used the power of UVA's mighty Titan Krios electron microscope, a microscope so sensitive it had to be buried underground to protect it from the slightest vibration. Kasson then used advanced computer modeling to determine the strange shape of the lipid membrane molecules. "Essentially, we encode everything we know about the physics of these molecules and then come up with models that are both consistent with the basic physics and consistent with the observations from the electron microscope," explained Kasson, of UVA's Department of Molecular Physiology and Biological Physics.

Egelman and Kasson were surprised by what they found, something so unusual and so potentially useful. "It's amazing how much we still don't know about life as it exists on Earth - at the bottom of the ocean, in the deep sea vents, or places like Yellowstone or Iceland where you have these very strange environments we think of as inhospitable to life," Egelman said. "But the things that live there, they may look at our environment and think, 'Strange.'"

Findings Published

The researchers have published their discovery in the scientific journal eLIFE. The team consisted of Egelman, Kasson, Frank DiMaio, Xiong Yu, Soizick Lucas-Staat, Mart Krupovic, Stefan Schouten and Prangishvili.

Explore further: Nearly indestructible virus yields tool to treat diseases

More information: Peter Kasson et al, Model for a novel membrane envelope in a filamentous hyperthermophilic virus, eLife (2017). DOI: 10.7554/eLife.26268

Journal reference: eLife

Provided by: University of Virginia

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Here’s a tip: Indented cement shows unique properties – Phys.org – Phys.Org

Posted on July 20, 2017 by Danzig

July 19, 2017 Indented tobermorite, a natural analog to the calcium-silicate-hydrate mix in cement, responds differently than bulk tobermorite, depending on the size of the indentation and the force. Layers that bond through indentation remain that way after the force is removed, according to Rice University engineers. Credit: Lei Ren/Rice University

Rice University scientists have determined that no matter how large or small a piece of tobermorite is, it will respond to loading forces in precisely the same way. But poking it with a sharp point will change its strength.

Tobermorite is a naturally occurring crystalline analog to the calcium-silicate-hydrate (C-S-H) that makes up cement, which in turn binds concrete, the world's most-used material. A form of tobermorite used by ancient Romans is believed to be a key to the legendary strength of their undersea concrete structures.

The finely layered material will deform in different ways depending on how standard forcesshear, compression and tensionare applied, but the deformation will be consistent among sample sizes, according to Rice materials scientist Rouzbeh Shahsavari. He conducted the research, which appears in Nature's open-access Scientific Reports, with lead author and graduate student Lei Tao.

For their latest survey, Shahsavari and Tao built molecular dynamics models of the material. Their simulations revealed three key molecular mechanisms at work in tobermorite that are also likely responsible for the strength of C-S-H and other layered materials. One is a mechanism of displacement in which atoms under stress move collectively as they try to stay in equilibrium. Another is a diffusive mechanism in which atoms move more chaotically. They found that the material maintains its structural integrity best under shear, and less so under compressive and then tensile loading.

More interesting to the researchers was the third mechanism, by which bonds between the layers were formed when pressing a nanoindenter into the material. A nanoindenter is a device (simulated in this case) used to test the hardness of very small volumes of materials. The high stress at the point of indentation prompted local phase transformations in which the crystalline structure of the material deformed and created strong bonds between the layers, a phenomenon not observed under standard forces. The strength of the bond depended on both the amount of force and, unlike the macroscale stressors, the size of the tip.

"There is significant stress right below the small tip of the nanoindenter," Shahsavari said. "That connects the neighboring layers. Once you remove the tip, the structure does not go back to the original configuration. That's important: These transformations are irreversible.

"Besides providing fundamental understanding on key deformation mechanisms, this work uncovers the true mechanical response of the system under small localized (versus conventional) loads, such as nanoindentation," he said. "If changing the tip size (and thus the internal topology) is going to alter the mechanicsfor example, make the material strongerthen one might use this feature to better design the system for particular localized loads."

Shahsavari is an assistant professor of civil and environmental engineering and of materials science and nanoengineering.

Explore further: Scientist probes ways to turn cement's weakness to strength

More information: Lei Tao et al, Diffusive, Displacive Deformations and Local Phase Transformation Govern the Mechanics of Layered Crystals: The Case Study of Tobermorite, Scientific Reports (2017). DOI: 10.1038/s41598-017-05115-4

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Here's a tip: Indented cement shows unique properties - Phys.org - Phys.Org

Using Milk Protein to 3D-Imprint Muscle and Bone Cells – Technology Networks

Posted on July 20, 2017 by Danzig

Electrical and Computer Engineering doctoral candidate Azadeh Taleb Hashemi, originally from Tehran, Iran, came to start her PhD at the University of Canterbury (UC) four years ago.

Azadehs successful work in UCs Biomolecular Interaction Centre is turning what is basically milk powder into biomedical devices, such as implants to help regrow missing body parts. Her work is focused on fabrication of casein-based films with surface patterns, and growing cells on them.

The aim of my work is to replicate a 3D imprint of cells onto films made of milk protein, to use them as a substrate for growing cells. Development of the replication process and controlling the biodegradability of these films are the main parts of this work, she says.

The patterns on these biodegradable cell culture substrates mimic the cells natural physical environment and they can influence cell shape and growth. Once they have done their job, the films gradually degrade and leave the grown tissue behind.

The possibilities of these micro- and nanostructures are tantalising, with applications in stem cell engineering, regenerative medicine, and implantable devices.

If they can help the cells grow into muscles, bones or other tissues they would be able to replace any missing body part and help them regrow, Azadeh says.

Another great application for these substrates is to grow stem cells on an imprint with patterns of different cell types and see what type of cell the stem cells would change into. We might even be able to stop cancer cells from being cancerous by growing them on these patterns, in which case the biodegradability of the substrates would also be an advantage for eliminating the need for secondary surgery.

These materials have not been used in the human body yet, but in theory their application could help recovery from injury or disease with muscle or bone replacement.

These films could especially be used as implants to help missing tissue or muscle regrow using the surface patterns as a guide. The biodegradable implant would then just dissolve and there wont be any need for secondary surgery to take the implant out.

The project is based on a collaboration between Dr Volker Nock of UCs Biomolecular Interaction Centre and Dr Azam Ali, formerly AgResearch, now at the University of Otago. It was initiated through the Biomolecular Interaction Centre via a summer scholarship.

The early results were promising and Azadeh's work took it to the next level, Dr Nock, her PhD supervisor, says.

Azadeh's work has demonstrated that we can replicate the shapes of biological cells into casein biopolymers with extremely high-resolution, that we can control how long these materials take to degrade and that we can culture other cells on top of them. She is just now getting her first results as to what influence the shapes have on the cells and how the shapes change over time. One premise is that plastic (bio or not) with the shape of similar cells imprinted on the surface may positively influence the response of other real cells encountering such a surface, he says.

Azadehs research also builds on the work of her PhD co-supervisor UC Professor Maan Alkaisi and his students in developing a method of imprinting the shapes of cells into plastic.

We now have a biodegradable, pattern-able surface on which we can culture cells. The patterns can for example be used to help guide cells during muscle fibre formation in a Petri dish, while slowly being dissolved by the cells in the process so that only the finished tissue remains, Dr Nock says.

Azadeh recently returned to Christchurch from the United States where she was invited to give a presentation at one of the largest micro- and nanofabrication conferences in the world, the International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication, based on a prize she won last year at a European conference in Vienna, Austria (International Conference on Micro & Nano Engineering). She co-wrote the academic paper - Fabrication of free-standing casein devices with micro- and nanostructured regular and bioimprinted surface features.

This article has been republished frommaterialsprovided by the University of Canterbury. Note: material may have been edited for length and content. For further information, please contact the cited source.

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Using Milk Protein to 3D-Imprint Muscle and Bone Cells - Technology Networks

Fluorine grants white graphene new powers – Space Daily

Posted on July 20, 2017 by Danzig

A little fluorine turns an insulating ceramic known as white graphene into a wide-bandgap semiconductor with magnetic properties. Rice University scientists said that could make the unique material suitable for electronics in extreme environments. A proof-of-concept paper from Rice researchers demonstrates a way to turn two-dimensional hexagonal boron nitride (h-BN) - aka white graphene - from an insulator to a semiconductor. The magnetism, they said, is an unexpected bonus.

Because the atomically thin material is an exceptional conductor of heat, the researchers suggested it may be useful for electronics in high-temperature applications, perhaps even as magnetic memory devices.

"Boron nitride is a stable insulator and commercially very useful as a protective coating, even in cosmetics, because it absorbs ultraviolet light," said Rice materials scientist Pulickel Ajayan, whose lab led the study. "There has been a lot of effort to try to modify its electronic structure, but we didn't think it could become both a semiconductor and a magnetic material. "So this is something quite different; nobody has seen this kind of behavior in boron nitride before," he said.

The researchers found that adding fluorine to h-BN introduced defects into its atomic matrix that reduced the bandgap enough to make it a semiconductor. The bandgap determines the electrical conductivity of a material.

"We saw that the gap decreases at about 5 percent fluorination," said Rice postdoctoral researcher and co-author Chandra Sekhar Tiwary. The gap gets smaller with additional fluorination, but only to a point. "Controlling the precise fluorination is something we need to work on. We can get ranges but we don't have perfect control yet. Because the material is atomically thin, one atom less or more changes quite a bit.

"In the next set of experiments, we want to learn to tune it precisely, atom by atom," he said.

They determined that tension applied by invading fluorine atoms altered the "spin" of electrons in the nitrogen atoms and affected their magnetic moments, the ghostly quality that determines how an atom will respond to a magnetic field like an invisible, nanoscale compass.

"We see angle-oriented spins, which are very unconventional for 2-D materials," said Rice graduate student and lead author Sruthi Radhakrishnan. Rather than aligning to form ferromagnets or canceling each other out, the spins are randomly angled, giving the flat material random pockets of net magnetism. These ferromagnet or anti-ferromagnet pockets can exist in the same swatch of h-BN, which makes them "frustrated magnets" with competing domains.

The researchers said their simple, scalable method can potentially be applied to other 2-D materials. "Making new materials through nanoengineering is exactly what our group is about," Ajayan said.

Co-authors of the paper are graduate students Carlos de los Reyes and Zehua Jin, chemistry lecturer Lawrence Alemany, postdoctoral researcher Vidya Kochat and Angel Marti, an associate professor of chemistry, of bioengineering and of materials science and nanoengineering, all of Rice; Valery Khabashesku of Rice and the Baker Hughes Center for Technology Innovation, Houston; Parambath Sudeep of Rice and the University of Toronto; Deya Das, Atanu Samanta and Rice alumnus Abhishek Singh of the Indian Institute of Science, Bangalore; Liangzi Deng and Ching-Wu Chu of the University of Houston; Thomas Weldeghiorghis of Louisiana State University and Ajit Roy of the Air Force Research Laboratories at Wright-Patterson Air Force Base.

Ajayan is chair of Rice's Department of Materials Science and NanoEngineering, the Benjamin M. and Mary Greenwood Anderson Professor in Engineering and a professor of chemistry.

Research paper

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Fluorine grants white graphene new powers - Space Daily

RIT wins $1M award from Department of Energy – Rochester Business Journal

Posted on July 20, 2017 by Danzig

Rochester Institute of Technology has won a $1 million award from the Department of Energys advanced manufacturing office, officials said.

The award was given to RIT for improvement in wiring for advanced electric equipment. Carbon-based wiresan alternative to coppermay improve electronic machine performance and connectivity, RIT said.

Depending on how bold a perspective you want to give, what we are embracing is a wire revolution, said Brian Landi, associate professor of chemical engineering in the Kate Gleason College of Engineering, in a statement. Thats the big picture viewif we could create affordable carbon wiring that has the electrical properties competitive with metal wiring, we would have a completely disruptive technology that would supplant metal wiring in select portable applications.

Landi is the principal investigator on the project, working with government partners at the U.S. Naval Research Laboratory and industry leaders Nanocomp Technologies and Minnesota Wire, officials said. He also is working with RIT assistant professors Ivan Puchades, of electrical engineering, and Reginald Rogers, of chemical engineering, on the project.

RIT is involved in seven of 14 advanced manufacturing initiatives in the country.

We are well-positioned to do this with more than a decade of research in carbon nanotube technology, specifically for wires and cables, and weve had success over the years as the first to publish carbon nanotube coaxial cables within military specifications, Landi said. The differentiator in the present work is, we are looking for the right combination of using carbon nanotubes with nano-metals to create a better transport at the nano-scale.

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RIT wins $1M award from Department of Energy - Rochester Business Journal

Law firm says it stands up for the disabled. Now it’s accused of racketeering – Fresno Bee

Posted on July 20, 2017 by Danzig

Fresno Bee

Law firm says it stands up for the disabled. Now it's accused of racketeering
Fresno Bee
In a tribute to her father, she filed a lawsuit last month in U.S. District Court in Fresno against Mission Law Firm and its predecessor, Moore Law Firm, alleging that the two firms violated the federal Racketeer Influenced and Corrupt Organizations ...

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Law firm says it stands up for the disabled. Now it's accused of racketeering - Fresno Bee

University of Missouri Research Institute Closes Amid Cuts – Higher … – Diverse: Issues in Higher Education

Posted on July 20, 2017 by Danzig

July 18, 2017 | :

COLUMBIA, Mo. The University of Missouri System has closed its $10 million medical research institute as part of an effort to cut costs.

The decision to close the International Institute of Nano and Molecular Medicine will affect 17 full-time and part-time employees through layoffs and contract non-renewals, university spokesman Christian Basi told the Columbia Missourian in an email.

The institute was closed June 30 because of its significant operating expenses and its lack of grant funding in recent years, Basi said.

The university broke ground on the institute in 2008. The institute studied how to apply nanotechnology to fighting diseases.

Frederick Hawthorne had been the director of the institute since it opened. He used nanotechnology to manipulate boron to try to find a way to combat cancer, arthritis and other illnesses. He was awarded the National Medal of Science by President Barack Obama in 2012.

The university expects to save about $1.5 million annually with the institutes closing. Basi said the building will likely be used as a research facility and that teams studying biomedical innovations and disease therapeutics will be in the facility next semester.

The school is still recovering from student protests in fall 2015 over the administrations handling of racial issues and the subsequent resignations of the system president and chancellor of the Columbia campus. Freshman enrollment subsequently dropped.

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University of Missouri Research Institute Closes Amid Cuts - Higher ... - Diverse: Issues in Higher Education

Fewer infections in mechanical heart valves – Medical Xpress

Posted on July 20, 2017 by Danzig

July 19, 2017

Infections in surgically implanted heart valves are more common in patients who have been given a biological prosthetic valve than in those with a mechanical one, a study from Karolinska Institutet published today in the journal Circulation shows.

Some 1,500 people undergo aortic valve replacement every year in Sweden, about 75 per cent of whom receive a biological valve (from a pig or calf), the remainder a mechanical one. A complication that carries a high fatality risk is prosthetic valve endocarditis, which occurs when the new valve is infected by bacteria. Until now, there have been no figures on whether the infection frequency differs between the two valve types. It has also been unknown how common infections in an artificial heart valve are. The present study included over 26,500 patients who received a prosthetic heart valve between 1995 and 2012, 940 of whom developed prosthetic valve endocarditis.

The risk of infection in the artificial valve was about 50 per cent higher with a biological prosthesis than with a mechanical. The follow-up time was up to 18 years.

"We hadn't expected this large difference," says Natalie Glaser, doctoral student at Karolinska Institutet's Department of Molecular Medicine and Surgery. "Our results are important as they tell us more about complications following the surgical replacement of aortic valves."

The current European cardiology guidelines state that there is no difference in the incidence of infection between the two types of implant. Dr Glaser argues that this could be because former studies were too small to reveal any difference and were done on patients who were operated on decades ago.

The present study has also provided updated figures on the commonality of the complication, which affected a total of around 0.5 per cent of patients per year. It also shows that the fatality rate was as high as 16 per cent within a month of diagnosed infection and 50 per cent within five years.

"The choice of valve prosthesis is very much decided by the patient's age," says principal investigator Ulrik Sartipy, heart surgeon at Karolinska University Hospital and docent at Karolinska Institutet's Department of Molecular Medicine and Surgery. "Biological valves are usually used for older patients for medical reasons, partly because such valves do not require life-long treatment with anticoagulants. In our study, those who had received biological valves were on average 13 years older than those who were given mechanical ones, but this we've compensated for in our comparison."

Explore further: Mechanical heart valve prosthesis superior to biological

More information: Natalie Glaser et al. Prosthetic Valve Endocarditis After Surgical Aortic Valve Replacement, Circulation (2017). DOI: 10.1161/CIRCULATIONAHA.117.028783

Journal reference: Circulation

Provided by: Karolinska Institutet

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Fewer infections in mechanical heart valves - Medical Xpress

$10 Million Medical Research Institute Closed by MU – KBIA

Posted on July 20, 2017 by Danzig

COLUMBIA The MU International Institute of Nano and Molecular Medicine was closed June 30 as part of the UM System's cost-cutting measures.

The institute, at 1514 Research Park Drive off Providence Road, has been on campus since 2009.The decision to close the institute was made last month,MU spokesman Christian Basi wrote in an email.

MU broke ground on the $10 million institute in 2008. The future of the building is still to be determined, but it is likely to be used as a research facility, Basi wrote.

Next semester, teams studying biomedical innovations and disease therapeutics will be in the building, Basi wrote.

The closure will affect 17 full and part-time employees through a combination of layoffs and contract non-renewals, Basi said. MU expects to save about $1.5 million annually.

Reasons for the institutes closure included its substantial operating expenses, as well as the lack of grant funding it has received in recent years, Basi wrote.

Frederick Hawthorne, recipient of the prestigiousNational Medal of Science, for his work on the element boron, had been the director since 2008.

He was given the medal in 2012 by President Barack Obama and is the only MU researcher to have ever received the award,according to earlier Missourian reporting.

The institute studied nanotechnology and how to apply it to fight diseases. Nanotechnology is the manipulating of matter on a tiny scale, less than 100 nanometers. A nanometer is one-billionth of a meter or .000000001 meter.

Hawthorne used the technology to manipulate the element boron in an attempt to combat cancer, arthritis and other illnesses.

Theinstitute's webpagedescribes it as "thestrongest research facility for the development of boron neutron capture therapy of cancer in the world."

Hawthorne was lured to MU from UCLA, where he had worked since 1969, in part because of the institute and the reactor it housed, which is among the best in the world for academic research,according to earlier Missourian reporting.

He is still an employee of MU at this time, though his ongoing role is unclear.

Supervising editor isJeanne Abbott.

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$10 Million Medical Research Institute Closed by MU - KBIA

University of Missouri research institute closes amid cuts – Manhattan Mercury (subscription)

Posted on July 20, 2017 by Danzig

COLUMBIA, Mo. The University of Missouri System has closed its $10 million medical research institute as part of an effort to cut costs.

The institute was closed June 30 because of its significant operating expenses and its lack of grant funding in recent years, Basi said.

The university broke ground on the institute in 2008. The institute studied how to apply nanotechnology to fighting diseases.

The university expects to save about $1.5 million annually with the institute's closing. Basi said the building will likely be used as a research facility and that teams studying biomedical innovations and disease therapeutics will be in the facility next semester.

The school is still recovering from student protests in fall 2015 over the administration's handling of racial issues and the subsequent resignations of the system president and chancellor of the Columbia campus. Freshman enrollment subsequently dropped.

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University of Missouri research institute closes amid cuts - Manhattan Mercury (subscription)

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