An epidemic of fatal drug overdoses across Canada is on the rise amid COVID-19 pandemic restrictions that harm-reduction workers and doctors say exacerbates the toxic supply. Overdose prevention sites continue to run but physical distancing guidelines mean fewer people are able to use the services. For example, a site in Toronto that previously averaged more than 100 visits a day now sees fewer than half that. From March 2019 to May 2020, Ontario's coroner reported a 25 per cent increase in fatal overdoses, based on preliminary estimates for all substances. Nick Boyce, director of the Ontario Harm Reduction Network, said the increase is significant. "It matches anecdotally what I've been hearing from the front-line workers we work with around the province," Boyce said. "They're all saying deaths are going up. But to hear that number and to see that number, I was not expecting it to be that high." Last year, fentanyl directly contributed to about 75 per cent of opioid-related deaths in Ontario. More than 14,000 Canadians have been killed by opioids in the last four years, according to federal data. "Laws actually incentivize drug dealers and suppliers to come up with new and different drugs," Boyce said. "We learned this lesson in the 1920s with alcohol prohibition when people switched from drinking beer to toxic moonshine. We're seeing that with the opioid drug supply now." ©2020 CBC/Radio-Canada.

Keyword: Drug Abuse; Stress
Link ID: 27296 - Posted: 06.10.2020

By Amanda Heidt Human beings typically don’t leave the nest until well into our teenage years—a relatively rare strategy among animals. But corvids—a group of birds that includes jays, ravens, and crows—also spend a lot of time under their parents’ wings. Now, in a parallel to humans, researchers have found that ongoing tutelage by patient parents may explain how corvids have managed to achieve their smarts. Corvids are large, big-brained birds that often live in intimate social groups of related and unrelated individuals. They are known to be intelligent—capable of using tools, recognizing human faces, and even understanding physics—and some researchers believe crows may rival apes for smarts. Meanwhile, humans continue to grow their big brains and build up their cognitive abilities during childhood, as their parents feed and protect them. “Humans are characterized by this extended childhood that affects our intelligence, but we can’t be the only ones,” says Natalie Uomini, a cognitive scientist at the Max Planck Institute for the Science of Human History. But few researchers have studied the impact of parenting throughout the juvenile years on intelligence in nonhumans. To study the link between parental care and intelligence in birds, Uomini and her team created a database detailing the life history of thousands of species, including more than 120 corvids. Compared with other birds, they found corvids spend more time in the nest before fledging, more days feeding their offspring as adults, and more of their life living among family. The results, reported last week in the Philosophical Transactions of the Royal Society B, also confirm corvids have unusually large brains compared with many other birds. Birds need to be light for flight, but a raven’s brain accounts for almost 2% of its body mass, a value similar to humans. © 2020 American Association for the Advancement of Science.

Keyword: Evolution; Intelligence
Link ID: 27295 - Posted: 06.09.2020

by Peter Hess Early behavioral signs predict seizures in autistic children, according to a new study1. Previous work has shown that 5 to 46 percent of people with autism experience seizures. And autistic adults with epilepsy have, on average, less cognitive ability and weaker daily living skills than their autistic peers who do not have seizures2. The new study shows that people with autism who begin having seizures during childhood show small but significant behavioral differences before they ever experience a seizure, compared with those who do not develop epilepsy. They score lower than their peers on measures of quality of life and adaptive behaviors, which include communication, daily living skills, socialization and motor skills. They score higher on a measure of hyperactivity. The results suggest that seizures and certain behavioral issues in autism could have common origins, says co-lead investigator Jamie Capal, associate professor of pediatrics and neurology at the University of North Carolina at Chapel Hill. “I think it really does show us that in individuals with autism who eventually have epilepsy, there is some shared mechanism early on that we just haven’t been able to identify,” Capal says. Early signs: To investigate the relationship between childhood behaviors in autism and the development of seizures, the researchers analyzed data on 472 autistic children aged 2 to 15 from the Autism Treatment Network, a medical registry that includes 12 clinics in the United States and Canada. None of the children had experienced seizures before enrolling in the network, but 22 developed seizures two to six years after enrollment. © 2020 Simons Foundation

Keyword: Autism; Epilepsy
Link ID: 27294 - Posted: 06.09.2020

Béatrice Pudelko Fear, anxiety, worry, lack of motivation and difficulty concentrating — students cite all sorts of reasons for opposing distance learning. But are these excuses or real concerns? What does science say? At the beginning of the pandemic, when universities and CEGEPs, Québec’s junior colleges, were putting in place scenarios to continue teaching at a distance, students expressed their opposition by noting that the context was “not conducive to learning.” Teachers also felt that the students were “simply not willing to continue learning in such conditions.” A variety of negative emotions were reported in opinion columns, letters and surveys. A petition was even circulated calling for a suspension of the winter session, which Education Minister Jean-François Roberge refused. Students are not the only ones who have difficulty concentrating on intellectual tasks. In a column published in La Presse, Chantal Guy says that like many of her colleagues, she can’t devote herself to in-depth reading. “After a few pages, my mind wanders and just wants to go check out Dr. Arruda’s damn curve,” Guy wrote, referring to Horacio Arruda, the province’s public health director. In short: “It’s not the time that’s lacking in reading, it’s the concentration,” she said. “People don’t have the head for that.” Why do students feel they don’t have the ability for studies? Recent advances in cognitive science provide insights into the links between negative emotions and cognition in tasks that require sustained intellectual investment. © 2010–2020, The Conversation US, Inc.

Keyword: Attention; Stress
Link ID: 27293 - Posted: 06.09.2020

By Yasmin Anwar, Media Relations Stephen Glickman, a pioneer in behavioral endocrinology and founder of the world’s first colony of captive spotted hyenas — he raised generations of them in a UC Berkeley research facility — died at his home in Berkeley on May 22 from pancreatic cancer. He was 87. A professor emeritus of psychology and of integrative biology, whose lifelong bond with animals began during his boyhood near the Bronx Zoo in New York, Glickman joined the UC Berkeley faculty in 1968. Over the next five decades, he conducted studies of creatures great and small, authoring more than 100 research papers. His sharp intellect, warm wit and overall lovability engaged peers and protégés in scientific and social justice pursuits, colleagues said. “Steve was a giant in the field of animal behavior,” said UC Berkeley psychology chair Ann Kring. “He studied a wide variety of species in the wild, at the zoo and, perhaps most famously, at the field station where he conducted work with hyenas for more than 30 years.” Glickman’s standout legacy is his ardent stewardship of a colony of spotted hyenas at UC Berkeley’s Field Station for the Study of Behavior, Ecology and Reproduction. The hyena compound in the Berkeley hills, above the campus, closed in 2014 when funding dried up, but not before yielding seminal discoveries about endocrinology, fertility and other medical conditions that affect humans. Hormone-driven matriarchy By studying female hyenas, who use a long, phallic clitoris, instead of a vagina, for mating and giving birth, Glickman and fellow researchers found that high levels of androgens produced in their ovaries masculinized their sex organs and boosted their aggression and dominance in the pack. Copyright © 2020 UC Regents; all rights reserved

Keyword: Sexual Behavior; Hormones & Behavior
Link ID: 27292 - Posted: 06.09.2020

Burcin Ikiz About five years ago, researchers from the Allen Institute for Brain Science in Seattle received a special donation: a piece of a live, rare brain tissue. It came from a very deep part of the brain neuroscientists usually can’t access. The donated tissue contained a rare and mysterious type of brain cells called von Economo neurons (VENs) that are thought to be linked to social intelligence and several neurological diseases. The tissue was a byproduct of a surgery to remove a brain tumor from a patient in her 60s. The location of the tissue turned out to be in one of the deepest layers of the frontoinsular cortex, which is one of the few places where these rare neurons are found in the human brain. “This was one of the extremely rare chances that we received this tissue from a donor that had a tumor being removed from quite a deep [brain] structure,” said Rebecca Hodge, who is the co-first author of the study, published in Nature Communications on March 3rd. Hodge and her colleagues became the first scientists to record electrical spikes from these neurons. Further studies they did on these cells gave them clues about the VENs’ identity and function in the human brain. VENs are large, spindle-shaped neurons. They were first identified by the Ukrainian scientist Vladimir Betz more than a century ago. They were later named after the anatomist Constantin von Economo, who described their shape and distribution through the human cortex. Only humans and especially social animals with large brains, such as great apes, whales, dolphins, and elephants have VENs. It is hypothesized that the cells evolved independently in these animals. Since common lab animals with smaller brains, like mice and rats, don’t have VENs, it is difficult to study them in a lab environment. © 2017 – 2019 Massive Science Inc.

Keyword: Consciousness
Link ID: 27291 - Posted: 06.08.2020

By Lisa Sanders, M.D. “I know what Danny has,” said the boy’s aunt to the boy’s mother, her sister-in-law. Her voice on the phone cracked with excitement. “I saw someone just like him on TV!” This was last fall, and Danny was 18. He had been a medical mystery since he was 7 months old. His mother recalled that she had just finished changing his diaper and picked him up when she heard him make a strange clicking noise, his mouth opening and closing oddly. And then his head flopped back as she held him. She hurried to the living room of their Queens home to show her husband, but by the time she got there, Danny was fine. Those sudden episodes of clicking and collapse happened again and again, eventually occurring more than 100 times a day. His first doctors thought these episodes could be tiny seizures. But none of the antiseizure medications they prescribed helped. Then, when Danny was 8, and almost too big for his mother to catch when he slow-motion slumped to the floor, his parents found a doctor who was willing to explore a different diagnosis and treatment. Could this be a rare disease known as cataplexy? In this disorder, patients have episodes of sudden weakness in the skeletal muscles of the body. In some, cataplexy may affect only the face or neck, causing the eyelids to droop or the head to fall forward. But in others, it can also affect the entire body. These episodes are often triggered by strong emotion, which was the case for Danny. Cataplexy is usually part of another rare disorder, narcolepsy, in which the normal control of sleep and wakefulness is somehow lost. Those with narcolepsy have sudden episodes of sleep that invade their waking hours and transient periods of wakefulness that disrupt their sleep. © 2020 The New York Times Company

Keyword: Sleep; Epilepsy
Link ID: 27290 - Posted: 06.08.2020

Allison Aubrey Sleep makes everything easier, even in these difficult days. Why then is it so hard to get? For most of us, right now, it takes work to settle our minds so we can rest. From medication to melatonin to putting on fuzzy socks, we all have routines we hope will help us drift off into sleep. And for good reason. "You've just got to gradually bring the brain and the body down, sort of from that altitude of wakefulness onto the hard, safe landing pad of sleep at night," says Matthew Walker, a sleep researcher at the University of California, Berkeley and the author of Why We Sleep. Don't count sheep Not only will counting sheep not help you fall asleep faster, but a study by Allison Harvey at UC Berkeley found that it actually "made it harder to fall asleep, and it took you longer to fall asleep." Do use calming mental imagery Harvey found that other types of mental imagery, however, are conducive to sleep. Walker suggests imagining a pleasant walk you've taken before, "like a hike in the woods or if it's a walk down on a beach that you do on vacation." Mentally navigating that walk, he says, "tended to hasten the speed of the onset of sleep." Try relaxation and meditation apps as training wheels "I'm a big fan of those things," says Chris Winter, a neurologist and sleep researcher in Charlottesville, Virginia. These apps can train you to meditate — to clear away regrets about the past and worries about the future so you can learn to be in the moment. "The ability to settle your mind and initiate sleep is a skill," Winter says. "The more you practice it, the better you'll get at it and the more confident you become." Melatonin has mixed results © 2020 npr

Keyword: Sleep; Stress
Link ID: 27289 - Posted: 06.08.2020

Published by Steven Novella under Neuroscience This is an important and sobering study, that I fear will not get a lot of press attention – especially in the context of current events. It is a bit wonky, but this is exactly the level of knowledge one needs in order to be able to have any chance of consuming and putting into context scientific research. I have discussed fMRI previously – it stands for functional magnetic resonance imaging. It uses MRI technology to image blood flow to different parts of the brain, and from that infer brain activity. It is used more in research than clinically, but it does have some clinical application – if, for example, we want to see how active a lesion in the brain is. In research it is used to help map the brain, to image how different parts of the brain network and function together. It is also used to see which part of the brain lights up when subjects engage in specific tasks. It is this last application of fMRI that was studied. Professor Ahmad Hariri from Duke University just published a reanalysis of the last 15 years of his own research, calling into question its validity. Any time someone points out that an entire field of research might have some fatal problems, it is reason for concern. But I do have to point out the obvious silver lining here – this is the power of science, self-correction. This is a dramatic example, with a researcher questioning his own research, and not afraid to publish a study which might wipe out the last 15 years of his own research. Copyright © 2020 All Rights Reserved .

Keyword: Brain imaging
Link ID: 27288 - Posted: 06.08.2020

­­Researchers at the National Institute of Neurological Disorders and Stroke (NINDS), a part of the National Institutes of Health, have identified a specific, front-line defense that limits the infection to the olfactory bulb and protects the neurons of the olfactory bulb from damage due to the infection. Neurons in the nose respond to inhaled odors and send this information to a region of the brain referred to as the olfactory bulb. Although the location of nasal neurons and their exposure to the outside environment make them an easy target for infection by airborne viruses, viral respiratory infections rarely make their way from the olfactory bulb to the rest of the brain, where they could cause potentially fatal encephalitis. The study was published in Science Immunology. Taking advantage of special viruses that can be tracked with fluorescent microscopy, the researchers led by Dorian McGavern, Ph.D., senior investigator at NINDS, found that a viral infection that started in the nose was halted right before it could spread from the olfactory bulb to the rest of the central nervous system. “Airborne viruses challenge our immune system all the time, but rarely do we see viral infections leading to neurological conditions,” said Dr. McGavern. “This means that the immune system within this area has to be remarkably good at protecting the brain.” Additional experiments showed that microglia, immune cells within the central nervous system, took on an underappreciated role of helping the immune system recognize the virus and did so in a way that limited the damage to neurons themselves. This sparing of neurons is critical, because unlike cells in most other tissues, most neuronal populations do not come back.

Keyword: Chemical Senses (Smell & Taste); Glia
Link ID: 27287 - Posted: 06.06.2020

By David Templeton For much of the 20th century, most people thought that stress caused stomach ulcers. But that belief was largely dismissed 38 years ago when a study, which led to a Nobel Prize in 2016, described the bacterium that generates inflammation in the gastrointestinal tract and causes peptic ulcers and gastritis. “The history of the idea that stress causes ulcers took a side step with the discovery of Helicobacter pylori,” said Dr. David Levinthal, director of the University of Pittsburgh Neurogastroenterology & Motility Center. “For the longest time — most of the 20th century — the dominant idea was that stress was the cause of ulcers until the early 1980s with discovery of Helicobacter pylori that was tightly linked to the risk of ulcers. That discovery was critical but maybe over-generalized as the only cause of ulcers.” Now in an important world first, a study co-authored by Levinthal and Peter Strick, both from the Pitt School of Medicine, has explained what parts of the brain’s cerebral cortex influence stomach function and how it can affect health. “Our study shows that the activity of neurons in the cerebral cortex, the site of conscious mental function, can impact the ability of bacteria to colonize the stomach and make the person more sensitive to it or more likely to harbor the bacteria,” Levinthal said. The study goes far beyond ulcers by also providing evidence against the longstanding belief that the brain’s influence on the stomach was more reflexive and with limited, if any, involvement of the thinking brain. And for the first time, the study also provides a general blueprint of neural wiring that controls the gastrointestinal tract. © 2020 StarTribune.

Keyword: Obesity
Link ID: 27286 - Posted: 06.06.2020

Veronique Greenwood Inside a series of tubes in a bright, warm room at Harvard Medical School, hundreds of fruit flies are staying up late. It has been days since any of them have slept: The constant vibrations that shake their homes preclude rest, cling as they might to the caps of the tubes for respite. Not too far away in their own tubes live other sleepless flies, animated with the calm persistence of those consigned to eternal day. A genetic tweak to certain neurons in their brains keeps them awake for as long as they live. They do not live long. The shaken flies and the engineered flies both die swiftly — in fact, the engineered ones survive only half as long as well-rested controls. After days of sleeplessness, the flies’ numbers tumble, then crash. The tubes empty out. The lights shine on. We all know that we need sleep to be at our best. But profound sleep loss has more serious and immediate effects: Animals completely deprived of sleep die. Yet scientists have found it oddly hard to say exactly why sleep loss is lethal. Sleep is primarily seen as a neurological phenomenon, and yet when deprived creatures die, they have a puzzlingly diverse set of failures in the body outside the nervous system. Insufficient sleep in humans and lab animals, if chronic, sets up health problems that surface over time, such as heart disease, high blood pressure, obesity and diabetes. But those conditions are not what slays creatures that are 100% sleep deprived within days or weeks. What does sleep do that makes it deadly to go without? Could answering that question explain why we need sleep in the first place? Under the pale light of the incubators in Dragana Rogulja’s lab at Harvard Medical School, sleepless flies have been living and dying as she pursues the answers. Simons Foundation © 2020

Keyword: Sleep; Neuroimmunology
Link ID: 27285 - Posted: 06.06.2020

By Meredith Wadman In January, one of the first publications on those sickened by the novel coronavirus in Wuhan, China, reported that three out of every four hospitalized patients were male. Data from around the world have since confirmed that men face a greater risk of severe illness and death from COVID-19 than women and that children are largely spared. Now, scientists investigating how the virus does its deadly work have zeroed in on a possible reason: Androgens—male hormones such as testosterone—appear to boost the virus’ ability to get inside cells. A constellation of emerging data supports this idea, including COVID-19 outcomes in men with prostate cancer and lab studies of how androgens regulate key genes. And preliminary observations from Spain suggest that a disproportionate number of men with male pattern baldness—which is linked to a powerful androgen—end up in hospitals with COVID-19. Researchers are rushing to test already approved drugs that block androgens’ effects, deploying them early in infection in hopes of slowing the virus and buying time for the immune system to beat it back. “Everybody is chasing a link between androgens … and the outcome of COVID-19,” says Howard Soule, executive vice president at the Prostate Cancer Foundation, who on 13 May ran a Zoom call presenting the newest research that drew 600 scientists and physicians. A second call scheduled for today will discuss incipient clinical trials. Epidemiological data from around the world have confirmed the early reports of male vulnerability. In Lombardy in Italy, for example, men comprised 82% of 1591 patients admitted to intensive care units (ICUs) from 20 February to 18 March, according to a JAMA paper. And male mortality exceeded that of women in every adult age group in another JAMA study of 5700 New York City patients hospitalized with COVID-19. © 2020 American Association for the Advancement of Science.

Keyword: Hormones & Behavior; Sexual Behavior
Link ID: 27284 - Posted: 06.04.2020

Hundreds of published studies over the last decade have claimed it's possible to predict an individual’s patterns of thoughts and feelings by scanning their brain in an MRI machine as they perform some mental tasks. But a new analysis by some of the researchers who have done the most work in this area finds that those measurements are highly suspect when it comes to drawing conclusions about any individual person’s brain. Watching the brain through a functional MRI machine (fMRI) is still great for finding the general brain structures involved in a given task across a group of people, said Ahmad Hariri, a professor of psychology and neuroscience at Duke University who led the reanalysis. “Scanning 50 people is going to accurately reveal what parts of the brain, on average, are more active during a mental task, like counting or remembering names,” Hariri said Functional MRI measures blood flow as a proxy for brain activity. It shows where blood is being sent in the brain, presumably because neurons in that area are more active during a mental task. The problem is that the level of activity for any given person probably won’t be the same twice, and a measure that changes every time it is collected cannot be applied to predict anyone’s future mental health or behavior. Hariri and his colleagues reexamined 56 published papers based on fMRI data to gauge their reliability across 90 experiments. Hariri said the researchers recognized that “the correlation between one scan and a second is not even fair, it’s poor.” © Copyright 2020 Duke University.

Keyword: Brain imaging
Link ID: 27283 - Posted: 06.04.2020

by Chloe Williams / A new flexible electrode array can detect the activity of neurons in a rat’s brain at high resolution for more than a year1. The device could be used to study how neuronal activity is altered in autism. Arrays usually have wires connected to each electrode to pick up its signal, but this design is bulky and works only in arrays consisting of 100 electrodes or fewer, limiting the array’s coverage and resolution. Devices with thousands of electrodes have integrated switches to consolidate signals into fewer wires. But these devices usually have a lifespan of only a few days. Their polymer-based coatings are often permeable to water or contain tiny defects that allow body fluids to seep into the device and current to leak out, damaging both the device and brain tissue. The new device combines electronic switches and a specialized protective coating so that scientists can record activity at the surface of the brain at high resolution over extended periods of time. The array, called Neural Matrix, consists of 1,008 surface electrodes laid out in 28 columns and 36 rows. Switches, or transistors, built into the array combine signals from all the electrodes in a column to a single output wire. The signals from each electrode in the column are recorded via the wire in a specific sequence, making it possible to separate them later. © 2020 Simons Foundation

Keyword: Brain imaging
Link ID: 27282 - Posted: 06.04.2020

By Marina Wang The classic eye exam may be about to get an upgrade. Researchers have developed an online vision test—fueled by artificial intelligence (AI)—that produces much more accurate diagnoses than the sheet of capital letters we’ve been staring at since the 19th century. If perfected, the test could also help patients with eye diseases track their vision at home. “It’s an intriguing idea” that reveals just how antiquated the classic eye test is, says Laura Green, an ophthalmologist at the Krieger Eye Institute. Green was not involved with the work, but she studies ways to use technology to improve access to health care. The classic eye exam, known as the Snellen chart, has been around since 1862. The farther down the sheet a person can read, the better their vision. The test is quick and easy to administer, but it has problems, says Chris Piech, a computer scientist at Stanford University. Patients start to guess at letters when they become blurry, he says, which means they can get different scores each time they take the test. Piech is no stranger to the Snellen test. At age 10, doctors diagnosed him with chronic uveitis, an inflammatory eye disease. “I was sitting through all these tests and it was pretty obvious to me that it was terribly inaccurate,” he says. He wanted to find a way to remove human error from the Snellen exam, while improving its accuracy. © 2020 American Association for the Advancement of Science.

Keyword: Vision; Robotics
Link ID: 27281 - Posted: 06.04.2020

In a nationwide study, NIH funded researchers found that the presence of abnormal bundles of brittle blood vessels in the brain or spinal cord, called cavernous angiomas (CA), are linked to the composition of a person’s gut bacteria. Also known as cerebral cavernous malformations, these lesions which contain slow moving or stagnant blood, can often cause hemorrhagic strokes, seizures, or headaches. Current treatment involves surgical removal of lesions when it is safe to do so. Previous studies in mice and a small number of patients suggested a link between CA and gut bacteria. This study is the first to examine the role the gut microbiome may play in a larger population of CA patients. Led by scientists at the University of Chicago, the researchers used advanced genomic analysis techniques to compare stool samples from 122 people who had at least one CA as seen on brain scans, with those from age- and sex-matched, control non-CA participants, including samples collected through the American Gut Project(link is external). Initially, they found that on average the CA patients had more gram-negative bacteria whereas the controls had more gram-positive bacteria, and that the relative abundance of three gut bacterial species distinguished CA patients from controls regardless of a person’s sex, geographic location, or genetic predisposition to the disease. Moreover, gut bacteria from the CA patients appeared to produce more lipopolysaccharide molecules which have been shown to drive CA formation in mice. According to the authors, these results provided the first demonstration in humans of a “permissive microbiome” associated with the formation of neurovascular lesions in the brain.

Keyword: Stroke
Link ID: 27280 - Posted: 06.04.2020

Amber Dance They told Marcelle Girard her baby was dead. Back in 1992, Girard, a dentist in Gatineau, Canada, was 26 weeks pregnant and on her honeymoon in the Dominican Republic. When she started bleeding, physicians at the local clinic assumed the baby had died. But Girard and her husband felt a kick. Only then did the doctors check for a fetal heartbeat and realize the baby was alive. The couple was medically evacuated by air to Montreal, Canada, then taken to the Sainte-Justine University Hospital Center. Five hours later, Camille Girard-Bock was born, weighing just 920 grams (2 pounds). Babies born so early are fragile and underdeveloped. Their lungs are particularly delicate: the organs lack the slippery substance, called surfactant, that prevents the airways from collapsing upon exhalation. Fortunately for Girard and her family, Sainte-Justine had recently started giving surfactant, a new treatment at the time, to premature babies. After three months of intensive care, Girard took her baby home. Today, Camille Girard-Bock is 27 years old and studying for a PhD in biomedical sciences at the University of Montreal. Working with researchers at Sainte-Justine, she’s addressing the long-term consequences of being born extremely premature — defined, variously, as less than 25–28 weeks in gestational age. Families often assume they will have grasped the major issues arising from a premature birth once the child reaches school age, by which time any neurodevelopmental problems will have appeared, Girard-Bock says. But that’s not necessarily the case. Her PhD advisers have found that young adults of this population exhibit risk factors for cardiovascular disease — and it may be that more chronic health conditions will show up with time.

Keyword: Development of the Brain
Link ID: 27279 - Posted: 06.04.2020

By Nicholas Bakalar Women who take benzodiazepines, such as Valium or Xanax, before becoming pregnant may be at increased risk for ectopic pregnancy, a new study found. An ectopic, or tubal, pregnancy is one in which a fertilized egg grows outside the uterus, often in a fallopian tube, and it is a life-threatening event. The egg must be removed with medication or surgery. Benzodiazepines, sold by prescription under several brand names, are widely prescribed for anxiety, sleep problems and seizures. The study, in Human Reproduction, used an insurance database of 1,691,366 pregnancies to track prescriptions for benzodiazepines in the 90 days before conception. Almost 18,000 of the of the women had used the drugs, and the scientists calculated that these women were 47 percent more likely to have a tubal pregnancy than those who did not. The study controlled for other risks for tubal pregnancy, including sexually transmitted infections, pelvic infection, use of an intrauterine device, smoking and fertility treatments. “Women planning a pregnancy who are using these drugs should talk to their care provider to see whether a change in treatment is possible, and then slowly change treatment before going off their contraceptive,” said the lead author, Elizabeth Wall-Wieler, a postdoctoral fellow at Stanford University. “Women for whom there is no alternative, or who have an unplanned pregnancy, should let their care provider know, and those pregnancies should be monitored carefully. The key to treating ectopic pregnancy is to treat it early.” © 2020 The New York Times Company

Keyword: Drug Abuse; Sexual Behavior
Link ID: 27278 - Posted: 06.04.2020

By Robert Martone When a concert opens with a refrain from your favorite song, you are swept up in the music, happily tapping to the beat and swaying with the melody. All around you, people revel in the same familiar music. You can see that many of them are singing, the lights flashing to the rhythm, while other fans are clapping in time. Some wave their arms over their head, and others dance in place. The performers and audience seem to be moving as one, as synchronized to one another as the light show is to the beat. A new paper in the journal NeuroImage has shown that this synchrony can be seen in the brain activities of the audience and performer. And the greater the degree of synchrony, the study found, the more the audience enjoys the performance. This result offers insight into the nature of musical exchanges and demonstrates that the musical experience runs deep: we dance and feel the same emotions together, and our neurons fire together as well. In the study, a violinist performed brief excerpts from a dozen different compositions, which were videotaped and later played back to a listener. Researchers tracked changes in local brain activity by measuring levels of oxygenated blood. (More oxygen suggests greater activity, because the body works to keep active neurons supplied with it.) Musical performances caused increases in oxygenated blood flow to areas of the brain related to understanding patterns, interpersonal intentions and expression. Data for the musician, collected during a performance, was compared to those for the listener during playback. In all, there were 12 selections of familiar musical works, including “Edelweiss,” Franz Schubert’s “Ave Maria,” “Auld Lang Syne” and Ludwig van Beethoven’s “Ode to Joy.” The brain activities of 16 listeners were compared to that of a single violinist. © 2020 Scientific American,

Keyword: Hearing
Link ID: 27277 - Posted: 06.03.2020