Friday, December 16, 2016

Tornado Cluster Sizes Skyrocket, and No One Knows Why

Tornados are behaving strangely: The number of tornado outbreaks per year is fairly constant, but the number of tornados per outbreak has skyrocketed. And scientists aren't entirely sure why.

In an effort to learn more, researchers looked at meteorological factors related to tornado outbreaks, and then dug into the data to see whether these factors had changed over time, said study lead researcher Michael Tippett, an associate professor of applied physics and applied mathematics at Columbia University.

The analyses did yield a result, but an unexpected one, Tippett said. [The Top 5 Deadliest Tornado Years in US History]

"The meteorological factors that are related with tornado outbreaks have also become more extreme," Tippett told Live Science in an email. "The surprising finding was that the change in meteorological factors did not have the expected signature of climate change."

That's not to say that climate change isn't involved, he said, but it does leave two possibilities: "Either the recent increases are not due to a warming climate, or a warming climate has implications for tornado activity that we don't understand," Tippett said in a statement.

Windy research

Tippett said he became interested in tornadoes in the spring of 2011, when multiple deadly twister outbreaks struck the U.S. That includes the multivortex tornado that hit Joplin, Missouri, killing 158 people and injuring more than 1,000.

"The public was asking what caused these record-breaking outbreaks, and scientists didn't have an answer," Tippett said.

In the following years, Tippett and other scientists published studies on tornado clusters, a sequence of six or more tornadoes that happen within several days of one another. In the new study, Tippett and his colleagues found that the number oftwisters in the most extreme outbreaks has increased over the years, making these clusters more dangerous than in the past, he said.

For instance, between 1965 and 2015, over five-year periods, the estimated number of tornadoes in the most extreme outbreaks (clusters with 12 or more tornados) roughly doubled, from 40 in 1965 to almost 80 in 2015, he said.

Climate connection?

To see whether this mysterious increase was connected to climate change, Tippett and his colleagues looked at two data sets from the National Oceanic and Atmospheric Administration (NOAA), one that included tornado reports and another with observation-based estimates of meteorological factors associated with tornado outbreaks, he said.

They were particularly interested in a factor called "convective available potential energy" (CAPE), the amount of energy available for convection in which hot, less dense material rises, and cold, dense material sinks. CAPE is related to the vertical wind speed, meaning that higher CAPE values indicate that severe weather will be more extreme, according to WeatherOnline.

As the climate warms, CAPE is expected to increase, past studies have suggested, the researchers wrote in the study.

However, CAPE has stayed fairly steady. Instead, "we see trends in the winds," Tippett said. The wind metric he looked at, called storm relative helicity (SRH), is a measure of corkscrew-like upward winds, something that was not expected to increase with climate change, he said. [Tornado Chasers: See Spinning Storms Up-Close (Photos)]

The finding is unexpected but important, said Harold Brooks, a senior scientist at NOAA's National Severe Storms Laboratory, who was not involved with the study.

"The fact that they can explain the tornado changes by storm relative helicity changes is, in one aspect, not surprising (it's a much better predictor of whether a storm will make a tornado than CAPE is)," Brooks wrote in an email to Live Science. "But, in another aspect, [the results are] difficult to explain. We don't really have a good conceptual model for why high SRH values should increase as the planet warms."

Another viewpoint

The study is "intriguing," but it has several limitations, said Victor Gensini an associate professor of meteorology at the College of DuPage in Illinois.

For starters, the study includes tornados only from 1979 to the present, which is a "fairly short historical record," Gensini said in an email to Live Science. It's also possible that tornado reporting has gotten better over time, and that earlier records left out some tornadoes, he said.

In addition, past studies have shown an increase in the variability of the U.S. tornado season, and climate models suggest that future severe weather will become more variable, Gensini said. But, in general, "there are better environmental metrics to examine tornado environments that the authors failed to use here," he said. "This is just one study, and people shouldn't hang their hat on one study."

Stolen Mummy Hand Makes Its Way Home

The blackened, cloth-wrapped hand arrived in a parcel at Los Angeles International Airport in January 2013. It was listed as a sci-fi movie prop, valued at $66. But as officials with U.S. Customs and Border Protection learned, the hand was from a real Egyptian mummy, nearly 3,000 years old.

The hand was apparently voluntarily forfeited by the importer, and this week, U.S. authorities repatriated it and four other illegally smuggled artifacts to Egypt as part of an ongoing investigation known as "Operation Mummy's Curse."

"It's sort of amazing the things people will try and ship across international borders," archaeologist Fredrik Hiebert, a National Geographic fellow, said in a video statement. [See Photos of the Mummy Hand and Other Artifacts Returned to Egypt]

In addition to the eighth-century-B.C. mummy hand, U.S. Immigration and Customs Enforcement, or ICE, also returned intricately painted ancient sarcophagi in a ceremony at the Egyptian embassy in Washington, D.C., on Thursday (Dec. 1).

"While we recognize that cultural property, art and antiquities are assigned a dollar value in the marketplace, the cultural and symbolic worth of these Egyptian treasures far surpasses any monetary value to the people of Egypt," ICE Director Sarah Saldaña said during her remarks.

ICE launched "Operation Mummy's Curse" in 2009 to bust a network of antiquities smugglers bringing illicit artifacts from other countries into the United States. Saldaña said her agency has made four arrests and two convictions in this investigation.

The operation has also recovered about 7,000 artifacts, not just from Egypt, but also from Greece, India and Iraq. ICE has already returned many of those cultural objects in past repatriation ceremonies. In March 2015, for example, ICE returned artifacts to Iraqi officials, including an ancient Sumerian ax that was being sold on Craigslist in 2012 as well as a gold-plated soap dish from Saddam Hussein's palace that turned up in Connecticut. In April 2015, ICE handed over dozens of other artifacts to Egypt, including a nesting sarcophagus the agency recovered from a garage in Brooklyn, New York.

Though international treaties and Egyptian laws protect Egyptian artifacts, a black market for antiquities thrives. Using satellite data, researchers have documented an uptick in illegal excavations across archaeological sites in Egypt over the last decade.

Smugglers using forged papers can bring looted material into the U.S. under the guise of a robust legal antiquities market. Census Bureau documents show that about $26 million worth of artifacts were exported from Egypt to the United States just during the first five months of 2016. But that could change. U.S. Secretary of State John Kerry signed an agreement with Egypt on Tuesday (Nov. 29) that imposes tougher import restrictions on Egyptian archaeological material that dates from 5200 B.C. to A.D. 1517.

Book Excerpt: 'Are Numbers Real?' (US 2016)

Have you ever wondered what humans did before numbers existed? How they organized their lives, traded goods, or kept track of their treasures? What would your life be like without them? Numbers began as simple representations of everyday things, but mathematics rapidly took on a life of its own, occupying a parallel virtual world. In "Are Numbers Real?," Brian Clegg explores the way that math has become more and more detached from reality, and yet despite this is driving the development of modern physics. Below is an excerpt from "Are Numbers Real?" (St. Martin's Press, 2016).

Not entirely surprisingly, inﬁnity is a topic that never fails to stimulate the mind. Thoughts about the nature and existence of inﬁnity go back all the way to the Ancient Greeks. They were certainly aware that a sequence of numbers like the positive integers, the simple counting numbers would go on forever. If there were a biggest integer—call it max—then there surely could always be max + 1, max + 2, and so on. But the whole idea of inﬁnity made the Greeks uncomfortable. Their word for it, apeiron, suggested chaos and disorder.

The Greek philosopher who took the deﬁnitive approach to inﬁnity for the period (a point of view that would remain dominant for centuries to come) was Aristotle, born in 384 BC in northern Greece. Aristotle argued that inﬁnity was both necessary and impossible. He used examples of aspects of the universe that he considered inﬁnite. The integers, as we have seen, or the span of time—which he argued had no end. And he believed that something could be divided up an inﬁnite set of times. But equally he came up with a range of often confusing arguments as to why inﬁnity could not exist in the real world. For example, he pointed out that a body is deﬁned by its boundaries. If a body were inﬁnite it would have no boundaries, hence it could not exist.

After what was clearly a considerable mental struggle, Aristotle ﬁnally decided that inﬁnity was a potential, rather than a concept that was fulﬁlled in reality. This “potential inﬁnity” was something that could be aimed for, but could never practically be achieved. Inﬁnity existed, but could not be made real on demand. To illustrate the concept he used the neat example of the Olympic games. The games existed—there was no doubt of that. It wasn’t a ﬁctional concept. But generally speaking, if someone asked you to show him or her the Olympic games, you couldn’t. The games were a potential entity, rather than something you could point at and identify. Aristotle was careful to point out, though, that some potential entities were going to become actual at a point in space or time, yet this wasn’t the case with inﬁnity.

This neutered concept of potential inﬁnity was exactly what Newton and Leibniz (see chapter 9) were dealing with when they devised calculus. The inﬁnity of calculus is something that we head toward—it is a limit that is never practically reached. And the target is exactly what the familiar symbol for inﬁnity, the lemniscate (∞) represents. It is the symbol for Aristotle’s potential inﬁnity. The lemniscate was introduced by Newton’s contemporary, John Wallis, who had written a rather dull treatise on the three-dimensional shapes known as conic sections, which are the result of cutting a pair of cones positioned point to point along various planes. (No one can accuse mathematicians of not knowing how to have fun.) Wallis just throws in a line that says “let ∞ represent inﬁnity” without ever explaining where this symbol comes from.

For the vast majority of mathematicians, with one notable exception, this was sufficient to carry all the way through to the nineteenth century. In fact, potential inﬁnity was generally considered to be the only respectable way to think about the inﬁnite. For example, Carl Friedrich Gauss, the eminent nineteenth- century German mathematician deﬁnitively remarked:

I protest against the use of an inﬁnite quantity as an actual entity; this is never allowed in mathematics. The inﬁnite is only a manner of speaking, in which one properly speaks of limits to which certain ratios can come as near as desired, while others are permitted to increase without bound.

The exception to this blinkered thinking was the remarkable Galileo Galilei. The ﬁrst thing that springs to mind when Galileo is mentioned was his championing of the Copernican theory that put the Sun rather than the Earth at the center of the universe, leading to his trial by the Inquisition and permanent house arrest. However, in scientiﬁc terms his most signiﬁcant work was the book he published in 1638 called Discorsi e Dimostrazioni Matematiche Intorno a Due Nuove Scienze (Discourses and Mathematical Demonstrations Concerning Two New Sciences). This was his masterpiece of physics, laying the ground for Newton’s triumphant completion of this work on mechanics, forces, and movement.

Like his book on Copernican theory that got him into so much trouble, this new work was structured as a conversation between three characters, a format that was very popular at the time. Written in conversational Italian rather than stuffy Latin, it remains far more readable today than the formal and often near-impenetrable work of Newton. Given his position, serving a life sentence for the publication, it was remarkable that Galileo got the book published at all. He attempted to do so originally in Venice, then proud of its independence from Rome, but there was still a requirement to get the go-ahead from the Inquisition, which had issued a blanket prohibition on printing anything that Galileo wrote.

If there was one thing that Galileo excelled in, it was stubbornness. Despite the prohibition, despite the risks of even indirectly evading it, when the Dutch publisher Lodewijk Elzevir visited Italy in 1636, Galileo managed to get a copy of his new manuscript to him. One fascinating aspect of the book as it ﬁnally came to print is the dedication. In earlier years, Galileo had always attempted to dedicate his writing to a power ﬁgure, who might as a result give him patronage. This book he dedicated to a former pupil who was now the French ambassador to Rome, Count François de Noailles. However, where previously Galileo could simply lavish as much praise as was possible (and plenty was possible in the sycophantic style of the time), here he had to be more careful, as the last thing he wanted to do was get Noailles into trouble with the Inquisition.

In the wording, Galileo combined deviousness with an apparent naïveté. It is highly unlikely that the Inquisition fell for his attempt at deception— though, in practice, they seemed to have turned a blind eye. According to Galileo:

I had decided not to publish any more of my work. And yet in order to save it from complete oblivion, it seemed wise to leave a manuscript copy in some place where it would be available at least to those who follow intelligently the subjects which I havetreated. Accordingly I chose ﬁrst to place my work in your Lord- ship’s hands ...

So, on the one hand Galileo was thanking Noailles for his help. But at the same time he didn’t want to make it sound as if Noailles had been directly responsible for the publication, so he threw in some mysterious intermediaries:

I was notiﬁed by the Elzevirs that they had these works of mine in press and that I ought to decide upon a dedication and send them a reply at once. This sudden unexpected news led me to think that the eagerness of your Lordship to revive and spread my name by passing these works on to various friends was the real cause of their falling into the hands of printers who, because they had already published other works of mine, now wished to honor me with a beautiful and ornate edition of this work.

He could thank Noailles, but also managed to blame un- named friends of the ambassador for passing the manuscript to the printer. It’s clear that the idea that all this had happened without Galileo’s knowledge until the book was almost ready to print was a ﬁction. Not only did he ensure that Elzevir received a copy of the manuscript on his Italian visit, there was a considerable correspondence between Galileo and Elzevir over the content of the book. Galileo was the kind of author that cause publishers to tear their hair out, wanting to tweak his output to the last possible moment before going to print. This is bad enough with today’s electronic printing, but was a nightmare when each page had to be carefully set up in movable type and made into a physical printing plate. But whether the Inquisition was fooled or simply looked the other way, it did not intervene and the book was published, if unavailable for sale in Galileo’s native Italy.

The “two new sciences” in the book’s title were those of the nature of solid matter and an analysis of motion, and it was in the ﬁrst section that the topic of inﬁnity came up. In trying to understand why solid matter sticks together so effectively—why, for instance, a piece of metal is so hard to break up—one of Galileo’s protagonists suggested that it is the vacuum between the tiny particles of matter that held them together. (He was wrong, it is electromagnetism, but it wasn’t a bad idea.) This theory was queried by Simplicio, whose role in the book was to challenge new thinking, mostly sticking to Ancient Greek ideas. Simplicio argued that there could only be a tiny bit of vacuum in so small a space, which could only apply a tiny force—far smaller than the powerful force that holds a piece of metal together.

Here Are the States with the Lowest & Highest Diabetes Rates

Diabetes is on the rise in the United States, and a new poll looks at where the disease is most and least common.

In the poll, from Gallup-Healthways, researchers surveyed a nationally representative sample of more than 176,000 Americans in all 50 states in 2015. The participants were asked whether they had ever been diagnosed with diabetes in their lifetime.

The three states with the lowest rates of diabetes were Utah, Rhode Island and Colorado. In these states, 7.5 to 8 percent of the survey participants said they had diabetes. In contrast, Alabama and West Virginia had the highest rates of diabetes, with about 16 percent of the participants in those two states saying they had been diagnosed with the disease.

The poll also looked at the rate of diabetes in cities nationwide. The city with the lowest rate of diabetes was Boulder, Colorado, where slightly less than 5 percent of residents said they had diabetes, followed by Bellingham, Washington, where about 6 percent said they had diabetes. The two cities with the highest rates of diabetes were Mobile, Alabama, and Charleston, West Virginia, where more than 17 percent of residents said they had diabetes. [Diabetes in America: Full List of State Rankings]

The results were published Wednesday (Nov. 30) in a report from Gallup-Healthways.

"Lower rates of diabetes could point to citizens of a particular state or community practicing healthier behaviors, which, in turn, could lead to better health outcomes and lower incidence of chronic conditions," Gallup-Healthways said in its report. "But a lower rate could also signal underdiagnoses" of diabetes, the report said.

The overall rate of diabetes in the United States in 2016 was 11.5 percent, up from 10.6 percent in 2008, Gallup-Healthways said. (The 2016 data is based on a separate poll conducted from Jan. 1 through Nov. 6 of 2016, according to Gallup-Healthways.) That means there were about 2.2 million more Americans with diabetes in 2016 than in 2008, Gallup-Healthways said.

The increase in diabetes has paralleled a rise in obesity, which is a risk factor for type 2 diabetes. In 2016, about 28 percent of Americans were obese, which is a nearly 3 percentage-point increase from the rate in 2008, Gallup-Healthways said. Type 2 diabetes has been linked with obesity. Type 1 diabetes, which used to be called juvenile diabetes, is an autoimmune disorder and is not linked with unhealthy lifestyle or diet choices. The Gallup-Healthways survey did not distinguish between Type 1 and Type 2 diabetes.

Bipedal Human Ancestor 'Lucy' Was a Tree Climber, Too

"Lucy," an early human ancestor that lived 3 million years ago, walked on two legs. But while she had her feet firmly planted on the ground, her arms were reaching for the trees, a new study shows.

High-resolution computed X-ray tomography (CT) scans of long bones in Lucy's arms reveal internal structures suggesting that her upper limbs were built for heavy load bearing — much like chimpanzees' arms, which they use to pull themselves up tree trunks and to swing between branches.

This adds to a growing body of evidence that although Lucy's pelvis, leg bones and feet supported bipedal walking, her upper body was adapted for at least partial life in trees — far more so than in modern humans.

Lucy was discovered in 1974 in Ethiopia, and for decades she represented the only known skeleton of the hominid species Australopithecus afarensis. Scientists knew from other fossil finds that females of the species were smaller than males, according to the Smithsonian National Museum of Natural History, and the size of Lucy's skeleton indicated that she was female.

While her skeleton was only 40 percent complete, it included long bones from her arms (humerus) and legs (femur), a partial shoulder blade and part of her pelvis, which helped scientists determine she was bipedal.

But scientists have argued that anatomical features also suggest that Lucy was partly arboreal — a tree dweller.

The researchers delved into a digital archive of more than 35,000 CT "slices" — single images of bone cross-sections — to peer inside Lucy's left and right humerus and her left femur, to see what they might reveal about her tree-climbing habits. They then compared the internal structures to bones from other fossil hominids, chimpanzees and modern humans.

Load-bearing arms

The study is grounded in mechanical engineering principles, lead author Christopher Ruff, a professor of functional anatomy and evolution at the Johns Hopkins University School of Medicine, said in a statement.

He explained that bones required to support a lot of heavy lifting are bulkier in order to bear the extra strain. Other studies have even shown that bones can bulk up over time in response to high-stress demands, according to study co-author John Kappelman, a paleoanthropologist with the University of Texas at Austin.

"It is a well-established fact that the skeleton responds to loads during life, adding bone to resist high forces and subtracting bone when forces are reduced," Kappelman said in the statement. "Tennis players are a nice example: Studies have shown that the cortical bone in the shaft of the racquet arm is more heavily built up than that in the non-racquet arm," he added.

Structural proportions in Lucy's bones told the scientists that she was far more adapted for climbing than modern humans. And like chimpanzees, she likely spent a good portion of time in trees, perhaps to escape from predators or to find food.

An ape-like shoulder

Before this study, there was some debate among scientists about how Lucy may have divided her time between the ground and the trees, according to Will Harcourt-Smith, an associate professor of anthropology at Lehman College in the City University of New York, and a research associate in the vertebrate paleontology department at the American Museum of Natural History.

"The argument about whether Lucy was a full committed biped was heavily challenged in the 1980s by a number of studies," Harcourt-Smith told Live Science. "When you look at the anatomy — an ape-like shoulder joint, aspects of the wrist, elbow and foot — there are all these features that indicate she was still climbing in trees a significant part of the time.

Lucy's shoulder joint, in particular, hinted that she was probably a tree climber, he added. "The orientation of the joint essentially indicates she would have had a range of motion more conducive to pulling herself up in the trees," Harcourt-Smith explained.

Another A. afarensis discovery in 2012 — a 3-year-old girl called "Selam" — offered additional evidence that this species was at least partly arboreal. Selam's shoulder blades were angled like apes', suggesting that her arms were adapted for active climbing, even at this early age. [Image Gallery: 3-Year-Old Human Ancestor Revealed]

"And then along comes this new study, looking at cross-sectional profiles of the long bone, and the stress and strain that would have gone through those bones," Harcourt-Smith said.

"I think it's a very strong biomechanical argument that they had these strong upper limbs that were outside the range of variations seen in humans, and were much more like an ape. So it's very complementary to that initial work on the shoulder bones," he added.

The findings were published online Wednesday (Nov. 30) in the journal PLOS ONE.

Flying Robotic Ambulance Completes First Solo Test Flight

A new automated, flying ambulance completed its first solo flight, offering a potential solution for challenging search and rescue missions.

Completing such missions in rough terrain or combat zones can be tricky, with helicopters currently offering the best transportation option in most cases. But these vehicles need clear areas to land, and in the case of war zones, helicopters tend to attract enemy fire. Earlier this month, Israeli company Urban Aeronautics completed a test flight for a robotic flying vehicle that could one day go where helicopters can't.

On Nov. 14, the company flew its robotic flyer, dubbed the Cormorant, on the craft's first solo flight over real terrain. The autonomous vehicle is designed to eventually carry people or equipment (as reflected in its former name, the AirMule) without a human pilot on board.

Urban Aeronautics said the test was "a significant achievement for a student pilot, human or nonhuman," and said the company is "proud" of the vehicle's performance.

The Cormorant uses ducted fans rather than propellers or rotors to fly. These fans are effectively shielded rotors, which means the aircraft doesn't need to worry about bumping into a wall and damaging the rotors. Another set of fans propels the vehicle forward, according to Urban Aeronautics.

The robotic flyer pilots itself entirely through laser altimeters, radar and sensors. The system is "smart" enough to self-correct when it makes mistakes, company officials said. In a video released by Urban Aeronautics, the Cormorant tries to land, stops itself and then corrects its landing position.

The vehicle is effectively a decision-making system that can figure out what to do if the inputs from the sensors are off in some way, the company said. If the Cormorant detects a potential issue, the drone's robotic brain can decide what to do: go home, land and wait for more instructions, or try a different flight path, Urban Aeronautics said.

Despite the completion of this month's flight test, Urban Aeronautics still needs to refine some parts of the technology, the company said. For one, the test flight wasn't very long, lasting only a minute or two. And though the terrain was irregular (as in, not completely flat), it was still an open field without any real obstacles on either side. Further tests will look to improve how smoothly the aircraft goes from takeoff to level flight, and to increase speed and maneuverability, the company said in a statement

In Rare Disorder, Woman's Immune System Attacks Her Own Brain

A young woman's weeklong bout of "strange behavior" was caused by a rare disease in which the immune system attacks the brain, according to a new report of the woman's case.

The 27-year-old woman went to the emergency room in Colorado after a week of feeling ill. She had began experiencing short-term memory loss and anxiety, and later developed agitation, hallucinations and involuntary movements, the doctors who treated her wrote in their report.

Prior to that week, the woman had been healthy. She told the doctors that she hadn't drank alcohol, smoked tobacco or used any drugs, according to the report, published Nov. 30 in The New England Journal of Medicine.

When a person comes into the emergency room with an "altered mental status," doctors must consider a wide range of possible causes, which run the gamut from neurological conditions, to trauma, to psychiatric illnesses, to body-wide diseases, according to the report. [Here's a Giant List of the Strangest Medical Cases We've Covered]

The doctors ran tests and carefully evaluated the woman's symptoms, eventually ruling out that the problem could be an infection, or the result of a toxin or a metabolic disorder.

The woman's age, sex and the involuntary muscle movements suggested that she might have had a rare type of encephalitis, or inflammation of the brain, called anti-NMDA receptor encephalitis, according to the report. The NMDA receptor, or N-methyl-D-aspartate receptor, is found on cells in the brain.

Anti-NMDA receptor encephalitis is an autoimmune disorder, said Dr. Susan Mathai, who treated the woman and was the lead author of the case report. In autoimmune disorders, the immune system attacks a person's own body. In anti-NMDA receptor encephalitis, the immune system makes antibodies that attack the NMDA receptor in the brain, said Mathai, who is also an assistant professor of medicine who teaches pulmonary science and critical care at the University of Colorado School of Medicine.

When this attack happens, it causes inflammation in the brain, which, in turn, can cause neurological symptoms, such as seizures and a loss of muscle-movement control, Mathai told Live Science.

Although the disease is rare, it's "not as rare as people think," Mathai said. She noted that there have been multiple cases at the University of Colorado, and that this autoimmune disorder is "increasingly being recognized as a cause of encephalitis." About 4 out of 5 people with anti-NMDA receptor encephalitis are women, according to the report.

Tests and treatment

To test for the condition, the doctors took a sample of the woman's spinal fluid. They found that it contained the antibodies, which confirmed she had the disease.

It's not entirely clear what causes a person to develop the autoimmune disorder. However, scientists think certain tumors may play a role.

Ovarian teratomas, which are a type of noncancerous tumor that grows on the ovaries, are the most common type of tumor found in patients with the disorder, according to the report.

In general, it's thought that certain proteins in these tumors trigger the immune system to create the antibodies that attack the NMDA receptor, Mathai said.

Indeed, when the doctors looked at the woman's ovaries, they found such a tumor on her left ovary, and removed it, according to the report.

Tumor removal is an important part of treating the autoimmune disease, according to the report.

Doctors also need to remove all of the problematic antibodies from a person's blood. To do so, the woman in the case underwent plasmapheresis, a procedure to purify the blood, for five days, the doctors wrote. She was also given medications to suppress her immune system, in order to stop the production of more antibodies.

The woman has fully recovered from the illness, the doctors noted in the report.

Lack of Sun in Teen Years Linked to Nearsightedness Later On

Teens and young adults who spend more time outdoors may be less likely to become nearsighted later in life than those who spend less time outdoors, a new study suggests.

People in the study who spent more time exposed to ultraviolet B (UVB) radiation — which the researchers calculated based on the participants' exposure to sunlight — between ages 14 and 39 were less likely to be nearsighted at 65 than those who spent less time exposed to UVB radiation, the researchers found.

"Increased UVB exposure was associated with reduced myopia, particularly in adolescence and young adulthood," the researchers wrote in the study, published yesterday (Dec. 1) in the journal JAMA Ophthalmology. Myopia is a term that eye doctors use for nearsightedness, where people can more clearly see objects if they are closer. [5 Experts Answer: What's the Best Way to Preserve My Eyesight?]

In the study, the researchers looked at 371 people with nearsightedness and 2,797 people without nearsightedness who lived in various locations in Europe, including Norway, Estonia, France, Italy, Greece, Spain and the United Kingdom. The people in the study were 65 years old, on average

Trained researchers examined the participants' eyesight, and collected blood samples to examine the levels of vitamin D in their blood. They did that because previous research had linked higher vitamin D concentrations to a lower risk of nearsightedness.

These researchers also interviewed the participants – they asked not only about their educations levels, diets and medical histories, but also about how much time the people had spent outdoors between 9 a.m. and 5 p.m. since they were 14 years old up to their current age.

The researchers then used the information about the participants' histories of exposure to sunlight and their geographical locations to calculate the levels of different types of outdoor sunlight wavelengths, including UVB wavelengths, the people had been exposed to.

It turned out that people who had been exposed to higher levels of UVB radiation — a factor that's closely related to how much time a person spends outdoors and is exposed to sunlight — as teens and young adults were less likely to be nearsighted at age 65 than those who had been exposed to lower levels of UVB radiation. This is in line with previous research, published in 2015 in the journal JAMA, that suggested that children who spent more time outdoors had a lower risk of becoming nearsighted.

However, in contrast to previous research, the new study did not find a link between higher levels of vitamin D and a person's risk of developing nearsightedness, the researchers said. [9 Good Sources of Disease-Fighter Vitamin D]

The new study shows a link between higher levels of exposure to UVB radiation and a lower risk of nearsightedness, but it does not prove that there is a cause-and-effect relationship between the two.

It is not clear exactly why UVB radiation or exposure to sunlight may be linked to a lower risk of nearsightedness, the researchers said. However, previous research suggested that sunlight might help stimulate the activation of certain cells in the eye, and may modulate a certain type of growth in the eye that is linked to nearsightedness, the researchers said.

Dr. Jules Winokur, an ophthalmologist at Lenox Hill Hospital in New York, who was not involved in the study, said that the study was interesting, but had certain limitations. For example, it relied on people's recollections of how much time they had spent outdoors many years ago, when they were teens, which may not be a reliable or accurate source of this type of information, he said.

More research is needed to assess the relationship between people's exposure to sunlight and their risk of nearsightedness, Winokur said.

Reel Big: 112-Pound Catfish Caught in North Carolina

A gigantic, 112-lb. (50 kilograms) catfish was reeled in by a North Carolina man the day before Thanksgiving, according to local news reports.

The man, Riahn Brewington, caught the massive fish in the northeast section of Cape Fear River in North Carolina, local ABC affiliate WWAY reported. Despite its mammoth size, the fish was 5 lbs. (2.3 kg) shy of the state record for a reeled-in catfish.

Brewington said he could tell the catch was big, but he had only a 10-lb. (4.5 kg) line on his fishing rod. [Photos of the Largest Fish on Earth]

"In the water, it felt like it was pretty big … I thought it would have already snapped the line," Brewington told WWAY. "I didn't realize how big he was until I actually got my hands underneath him."

The beast pulled all the slack from the line, twice, during a 30-minute battle, before Brewington finally reeled in the catfish, WWAY reported. The fisherman took a few photos with the incredible catch, but then released the catfish back into the river.

A number of factors contribute to catfish growth, but according to Hal Schramm, a fisheries research biologist at Mississippi State University, temperature is a major factor.

"They begin active feeding and resume rapid growth at water temperatures above 70 degrees F [21 degrees Celsius], and growth isn't suppressed at high temperatures in natural waters if adequate food is available," Schramm wrote in an article for outdoor magazine In-Fisherman.

According to Schramm, catfish grow faster and larger in the warm waters of the South.

Lack of Sun in Teen Years Linked to Nearsightedness Later On

The new study shows a link between higher levels of exposure to UVB radiation and a lower risk of nearsightedness, but it does not prove that there is a cause-and-effect relationship between the two.

More research is needed to assess the relationship between people's exposure to sunlight and their risk of nearsightedness, Winokur said.