Diana Fleischman Because of the flaming culture wars, feminists and others who disagree about the nature of sex or sex differences often ascribe significant harms to researchers who claim that sex is binary or who acknowledge biological sex differences. These perceived harms include oppression, inequality, and even murder and suicide. As a result, many influential voices in the sex difference debate rarely engage in dialogue. This context made “The Big Conversation”—an October conference that brought together a diverse group of feminists, evolutionary psychologists, biologists, and neuroscientists—such a remarkable event. The rarity of such a meeting was highlighted by the cancellation of a panel on sex differences at an annual anthropological conference just a few days before. People who had sniped at each other for years through academic papers and social media not only shared stages and panels, they broke bread together. Attendees on all sides of the issue held my baby, whom I brought along. The fear of meeting ideological opponents often leads to the expectation of hostility in person, but what’s worse is that you often will come to like them! The Big Conversation took years to come together. It was organized by sex difference expert Marco Del Giudice and Paul Golding of the Santa Fe Boys Foundation. This foundation is dedicated to exploring how to help boys and young men and was the event’s sponsor. The conference featured 16 talks and 5 discussion sections. The entire conference is available for viewing (for free!) on the Santa Fe Boys Foundation website. A central questions in sex difference research concerns the origins of differences between men and women. Are these differences primarily the result of socialization, culture, and stereotype effects, or are these differences largely innate or biological? We can call these perspectives, as Carole Hooven did during her talk, the strong socialization view and the strong biology view, respectively. Many of the conference attendees, like Gina Rippon, Cordelia Fine and Daphna Joel, endorse the strong socialization view of sex differences, arguing that men and women are innately psychologically similar but are driven into different roles by cultural forces and socialization. This perspective sparks controversy surrounding discussions on biological sex differences because its proponents argue that legitimizing and publicizing sex differences creates them where they did not exist before. © 2024 Colin Wright

Keyword: Sexual Behavior; Evolution
Link ID: 29095 - Posted: 01.13.2024

By Conor Feehly A decade ago, when I was starting my first year of university in New Zealand, I attended a stage hypnosis. It was one of a number of events the university offered to incoming students during orientation week. From the stage of a campus auditorium, the hypnotist-for-hire asked an audience of some 200 students to close their eyes and listen to his voice. Then he directed us to clasp our hands tightly together, and to imagine an invisible thread wrapping around them—over and under, over and under—until it was impossible to pull them apart. After a few minutes of this, he told us to try to separate our hands. Those who could not, he said, should come on down to the stage. I instantly pulled my hands apart, but to my surprise, a close friend sitting next to me made his way to the front of the auditorium with roughly 20 others from the audience. Once on stage, the hypnotist tried to bring them deeper into a hypnotic trance, directing them to focus on his calm, authoritative voice. He then asked a few of them to role-play scenarios for our entertainment: a supermarket checkout clerk ringing up shopping items, a lifeguard scanning for lives to save. After a short time, I saw the hypnotist whisper something into the ear of my friend. He sheepishly made his way back to the seat next to me. “What did he say to you?” I asked. He replied, “I can tell you’re acting, mate, get off the stage.” In the more than 200 years since the practice of contemporary hypnosis was described by German physician Franz Mesmer, public perception of it has see-sawed between skepticism and credulity. Today hypnotherapy is used to provide therapeutic remedy for depression, pain, substance use disorders, and certain traumas, uses that are supported to a certain extent by research evidence. But many still consider hypnosis more of a cheap magician’s trick than legitimate clinical medicine. © 2024 NautilusNext Inc.,

Keyword: Attention
Link ID: 29094 - Posted: 01.13.2024

By Carl Zimmer Multiple sclerosis, an autoimmune disease that affects 2.9 million people, presents a biological puzzle. Many researchers suspect that the disease is triggered by a virus, known as Epstein-Barr, which causes the immune system to attack the nerves and can leave patients struggling to walk or talk. But the virus can’t be the whole story, since nearly everyone is infected with it at some point in life. A new study found a possible solution to this paradox in the skeletal remains of a lost tribe of nomads who herded cattle across the steppes of western Asia 5,000 years ago. It turns out that the nomads carried genetic mutations that most likely protected them from pathogens carried by their animals, but that also made their immune systems more sensitive. These genes, the study suggests, made the nomads’ descendants prone to a runaway immune response. The finding is part of a larger, unprecedented effort to understand how the evolutionary past has shaped the health of living people. Researchers are analyzing thousands of genomes of people who lived between Portugal and Siberia and between Norway and Iran roughly 3,000 to 11,000 years ago. They hope to trace the genetic roots of not only multiple sclerosis, but also diabetes, schizophrenia and many other modern illnesses. “We are taking ancient human genomics to a whole new level,” said Eske Willerslev, a geneticist at the University of Copenhagen who led the effort. The researchers published the multiple sclerosis study as well as three other papers on the genetics and health of ancient peoples on Wednesday in the journal Nature. For more than a decade, Dr. Willerslev and other researchers have been pulling DNA from ancient human bones. By comparing the surviving genetic material with that of living people, the scientists have been able to track some of the most significant migrations of people across the world. © 2024 The New York Times Company

Keyword: Multiple Sclerosis; Evolution
Link ID: 29093 - Posted: 01.11.2024

By Viviane Callier Aging can seem like an unregulated process: As time marches along, our cells and bodies inevitably accumulate dings and dents that cause dysfunctions, failures and ultimately death. However, in 1993 a discovery upended that interpretation of events. Researchers found a mutation in a single gene that doubled a worm’s life span; subsequent work showed that related genes, all involved in the response to insulin, are key regulators of aging in a host of animals, from worms and flies to humans. The discovery suggested that aging is not a random process — indeed, specific genes regulate it — and opened the door to further research into how aging proceeds at a molecular level. Recently, a set of papers documented a new biochemical pathway that regulates aging, one based on signals passed between mitochondria, the organelles best known as the powerhouse of the cell. Working with worms, the researchers found that damage to mitochondria in brain cells triggered a repair response that was then amplified, setting off similar reactions in mitochondria throughout the worm’s body. The effect of this repair activity was to extend the organism’s life span: The worms with repaired mitochondrial damage lived 50% longer. What’s more, cells in the germline — the cells that produce eggs and sperm — were central to this anti-aging communication system. It’s a finding that adds new dimensions to the fertility concerns implied when people talk about aging and their “biological clock.” Some of the findings were reported in Science Advances and others were posted on the scientific preprint server biorxiv.org in the fall. All Rights Reserved © 2024

Keyword: Development of the Brain
Link ID: 29092 - Posted: 01.11.2024

By Sara Reardon At birth, a human baby’s brain contains the most neurons it will ever have. How this complex brain develops in the womb has been hard to study in humans. But a new and potentially controversial method, growing tiny, brainlike structures called organoids in a dish from human fetal brain tissue, could provide a realistic model and improve the study of developmental disorders or brain cancers. The team that achieved this first, reported yesterday in Cell, has also shown it can genetically engineer the blobs of tissue, which could help the fetal brain organoids (FeBOs) mimic certain diseases. The researchers have “demonstrated some interesting and creative uses,” for the new organoids, says Arnold Kriegstein, a neurologist at the University of California (UC), San Francisco. He thinks FeBOs might help researchers tackle previously unexplored questions about how neurons take on specific identities in the maturing brain, for example. Researchers have already created organoids that mimic multiple parts of the brain and nervous system using stem cells that have the capacity to turn into many or all known cell types with the right stimulation and environment. To study genetic conditions that affect brain development, scientists can also “reprogram” mature cells from affected patients into stem cells to make organoids. Some stem cell–derived brain organoids, which are usually about the size of a grain of rice, have even produced electrical activity reminiscent of that in the brain of a fetus. But although these organoids can be useful representations of the brain, the starting stem cells must be “pushed” into a brainlike state through an introduced cocktail of signaling molecules—a complex process that may not fully replicate normal development, says stem cell biologist Benedetta Artegiani of the Princess Máxima Center for Pediatric Oncology. Using natural fetal brain tissue might reveal more about what the human brain really looks like at this stage of development. (Previous studies have made organoids from human fetal intestine, liver, and lung tissue, but not brain.) © 2024 American Association for the Advancement of Science.

Keyword: Development of the Brain
Link ID: 29090 - Posted: 01.11.2024

Jon Hamilton A new generation of blood tests is poised to change the way doctors determine whether patients with memory loss also have Alzheimer's disease. The tests detect substances in the blood that indicate the presence of sticky amyloid plaques in the brain — a hallmark of Alzheimer's. So these tests have the potential to replace current diagnostic procedures, like costly PET scans and uncomfortable spinal taps. Blood tests also promise to provide doctors with a quick way to identify patients who could benefit from new drugs that remove amyloid from the brain. But the accuracy of the tests still varies widely. "Some of them are really good, and some of them are really bad," says Dr. Suzanne Schindler, a dementia specialist at Washington University School of Medicine in St. Louis. Blood tests represent the latest advance in efforts to detect the buildup of amyloid plaques and fibrous tangles in the brain. "It used to be that the only way you could definitively diagnose someone with Alzheimer disease is by doing an autopsy," Schindler says. Then, starting in the early 2000s, scientists found ways to detect plaques and tangles using PET scans and tests of spinal fluid. There are now versions of both approaches that are approved by the Food and Drug Administration. But the scans are costly, and spinal taps are unpopular with many doctors and patients. Both also require expertise that is in short supply. So Schindler and her colleagues got a lot of attention in 2019 when they published a paper showing that amyloid plaques could be revealed by a blood test. © 2024 npr

Keyword: Alzheimers
Link ID: 29088 - Posted: 01.11.2024

By Christina Jewett and Benjamin Mueller In early 2020, the Food and Drug Administration responded to decades of escalating concerns about a commonly prescribed drug for asthma and allergies by deploying one of its most potent tools: a stark warning on the drug’s label that it could cause aggression, agitation and even suicidal thoughts. The agency’s label, which was primarily aimed at doctors, was supposed to sound an alert about the 25-year-old medication, Singulair, also known by its generic name, montelukast. But it barely dented use: The drug was still prescribed to 12 million people in the United States in 2022. Children face the greatest risks of the drug’s ill effects, and while usage by minors did decline, it was still taken by 1.6 million of them — including Nicole Sims’s son. Ms. Sims had no idea why, at 6, her son started having nightmares and hallucinations of a woman in the window. When he told her that he wanted to die, Ms. Sims went online, desperate for answers. Only then did she learn about the F.D.A. warning. She also found a Facebook support group with 20,000 members for people who had experienced side effects of the drug. Members of the group recounted a haunting toll that they linked to the drug with the help of peers, not their doctors. “It’s a mental health crisis that nobody is recognizing,” said Anna Maria Rosenberg, an administrator of the group. The F.D.A.’s handling of Singulair illustrates systemic gaps in the agency’s approach to addressing troubling side effects from medicines approved long ago — and to warning the public and doctors when serious issues arise. The agency had flagged the 2020 warning label, known as a “boxed warning,” to physicians’ groups, but it had not required that doctors be educated about the drug’s side effects. Federal regulators in 1998 initially dismissed evidence that emerged during the approval process about the drug’s potential to affect the brain and did not revise their assessment until two decades later. The F.D.A. was slow to alert the public as reports of psychiatric problems surfaced, highlighting deficiencies of a drug-monitoring system that puts the onus on drugmakers to report problems. © 2024 The New York Times Company

Keyword: Depression
Link ID: 29087 - Posted: 01.09.2024

By Amber Dance 01.08.2024 We all want to be happy — and for decades, psychologists have tried to figure out how we might achieve that blissful state. The field’s many surveys and experiments have pointed to a variety of approaches, from giving stuff away to quitting Facebook to forcing one’s face into a toothy grin. But psychology has undergone serious upheaval over the last decade, as researchers realized that many studies were unreliable and unrepeatable. That has led to a closer scrutiny of psychological research methods, with the study of happiness no exception. So — what really makes us happy? Under today’s more careful microscope, some routes to happiness seem to hold up, while others appear not to, or have yet to re-prove themselves. Here’s what we know so far, and what remains to be reassessed, according to a new analysis in the Annual Review of Psychology. One long-standing hypothesis is that smiling makes you feel happier. In a classic 1988 study, researchers asked 92 Illinois undergraduates to hold a felt tip pen in their mouth either with their teeth, forcing an unnatural grin, or with their lips, making them pout. The students then looked at four examples of The Far Side comics. On average, those with the forced smiles found the one-panel comics slightly funnier than those with the forced pouts. But when 17 different research labs got together to retest the pen-clench smile’s effects on 1,894 new participants, the finding failed to hold up, the researchers reported in 2016. The repetition study was part of a broader effort to counter psychology’s reproducibility crisis, which in part has been attributed to the variety of ways in which researchers could examine and reanalyze their data until they arrived at publishable results. “It’s kind of like shooting a bunch of arrows at the wall and drawing the bullseye on after,” says Elizabeth Dunn, a social psychologist at the University of British Columbia in Vancouver and coauthor of the new Annual Review of Psychology paper.

Keyword: Emotions
Link ID: 29086 - Posted: 01.09.2024

By Bill Sullivan Schizophrenia can produce persistent delusions, hallucinations, and disorganized thinking. The precise cause is unknown but seems to involve a combination of genetics and environmental risk factors. One environmental factor may be an infectious agent, such as the common parasite Toxoplasma gondii, which causes toxoplasmosis. Since cats can transmit Toxoplasma to humans, scientists have been investigating whether there is a link between cat ownership and schizophrenia. Many studies have tried to answer this question over the past 50 years; some studies show an association, but others do not. Researchers at the University of Queensland in Australia recently reanalyzed all these studies to determine the current consensus. What Is Toxoplasma? Toxoplasma is a single-celled parasite that infects all warm-blooded animals, including up to one-third of the human population. Cats are the only animals that support the sexual stage of the parasite’s life cycle, which culminates in the expulsion of infectious parasites in the feces. These fecal parasites are housed in sturdy containers called oocysts, which are stable in the environment for years and can spread the infection to a new individual if inhaled or ingested. In addition to litter boxes, people can pick up oocysts wherever a cat may have defecated, for example in the yard, sandbox, or garden (including unwashed fruits and vegetables). Oocysts have also made their way into streams and seawater, where they can infect people though shellfish. Up to 40 million people in the U.S. are infected with Toxoplasma. While a healthy immune system can control the parasite’s growth, it cannot get rid of the infection entirely. Toxoplasma parasites remain in the brain and other tissues as latent cysts, which can resume growth if the immune system is weakened.

Keyword: Schizophrenia
Link ID: 29084 - Posted: 01.09.2024

By Cara Giovanetti The human brain's billions of neurons represent a menagerie of cells that are among both the most highly specialized and variable ones in our bodies. Neurons convert electrical signals to chemical signals, and in humans, their lengths can be so tiny as to span just the tip of a sharpened pencil or, in some cases, even stretch the width of a doorway. Their flexible control of movement and decision-making explains why they are so key to survival in the animal kingdom. Most animals depend on their allotment of neurons for survival. It might stand to reason, then, that the common ancestor of all of these animals also moved about the Earth millions of years ago under the guidance of electrochemical signals transmitted and received by networks of neurons. The idea that these pivotal cells evolved multiple times seems implausible because neurons are highly complex cells, and they are also quite similar among animal lineages. But a series of recent evolutionary biology studies are straining the assumption that all animal neurons have a single origin. These findings are the culmination of several years’ worth of research on and debate about early evolutionary animal lineages and the cells and systems present in those species. The first such finding came from studying relationships among early animals, with a focus on two particular types of organisms: sponges (including sea sponges and freshwater varieties) and ctenophores, invertebrates often known as comb jellies, though they are unrelated to jellyfish. For roughly 15 years, evolutionary biologists have been divided over whether ctenophores or sponges were the first animals to branch from all other animals in the evolutionary tree. Hundreds of millions of years ago the common ancestor to all living animals branched into two species. On one side was the common ancestor of all groups of animals except for one. On the other side was that “one”—the “sister group” that was the first to diverge from all other animals. A persistent question has been whether the sister group was the sponges or ctenophores. A compelling paper published last year lends strong support to the hypothesis that ctenophores are, in fact, the long-sought sister group. Ctenophores, the researchers found, branched off before sponges and are therefore the group most distantly related to all other animals. Yet despite the new evidence, what exactly happened in evolutionary history is still unsettled because of the puzzle it poses in explaining the evolution of neurons. © 2023 SCIENTIFIC AMERICAN,

Keyword: Evolution
Link ID: 29081 - Posted: 01.06.2024

Allison Aubrey Among the roughly 40 million adults in the U.S. who have hearing loss, most don't use hearing aids. This means they may be missing out on more than just good hearing. Research shows hearing loss, if left untreated, can increase the risk of frailty, falls, social isolation, depression and cognitive decline. One study from scientists at Johns Hopkins University found that even people with mild hearing loss doubled their risk of dementia. Now a new study finds that restoring hearing loss with hearing aids may lengthen people's lives. Dr. Janet Choi, an otolaryngologist with Keck Medicine of USC, wanted to evaluate whether restoring hearing with hearing aids may increase the chances of living longer. Using data from the the National Health and Nutrition Examination Survey, a large, national study, Choi and her colleagues tracked the status of nearly 1,900 adults who had been shown to have hearing loss during screenings. The participants completed questionnaires about their use of hearing aids. "The group of patients who were using hearing aids regularly had a 24% lower risk of mortality compared to the group who never use hearing aids," Choi says. Meaning, the participants who were in the habit of wearing hearing aids were significantly less likely to die early. The researchers had hypothesized this would be the case given all the studies pointing to the negative impacts of untreated hearing loss. But Choi says they did not expect such a big difference in mortality risk. "We were surprised," she says. Prior research has shown that age-related hearing loss – if untreated – can take its toll on physical and mental health. And a recent study found restoring hearing with hearing aids may slow cognitive decline among people at high risk. © 2024 npr

Keyword: Hearing
Link ID: 29079 - Posted: 01.06.2024

Kamal Nahas Peter Hegemann, a biophysicist at Humboldt University, has spent his career exploring interactions between proteins and light. Specifically, he studies how photoreceptors detect and respond to light, focusing largely on rhodopsins, a family of membrane photoreceptors in animals, plants, fungi, protists, and prokaryotes.1 Early in his career, his curiosity led him to an unknown rhodopsin in green algae that later proved to have useful applications in neuroscience research. Hegemann became a pioneer in the field of optogenetics, which revolutionized the ways in which scientists draw causal links between neuronal activity and behavior. In the early 1980s during his graduate studies at the Max Planck Institute of Biochemistry, Hegemann spent his days exploring rhodopsins in bacteria and archaea. However, the field was crowded, and he was eager to study a rhodopsin that scientists knew nothing about. Around this time, Kenneth Foster, a biophysicist at Syracuse University, was investigating whether the green algae Chlamydomonas, a photosynthetic unicellular eukaryote related to plants, used a rhodopsin in its eyespot organelle to detect light and trigger the algae to swim. He struggled to pinpoint the protein itself, so he took a roundabout approach and started interfering with nearby molecules that interact with rhodopsins.2 Rhodopsins require the small molecule retinal to function as a photoreceptor. When Foster depleted Chlamydomonas of its own retinal, the algae were unable to use light to direct movement, a behavior that was restored when he introduced retinal analogues. In 1985, Hegemann joined Foster’s group as a postdoctoral researcher to continue this work. “I wanted to find something new,” Hegemann said. “Therefore, I worked on an exotic organism and an exotic topic.” A year later, Hegemann started his own research group at the Max Planck Institute of Biochemistry where he searched for the green algae’s rhodopsin that Foster proposed should exist. © 1986–2024 The Scientist.

Keyword: Brain imaging; Vision
Link ID: 29077 - Posted: 01.03.2024

By April Dembosky Every year, an estimated 100,000 young adults or adolescents in the U.S. experience a psychotic episode. Only 10-20% of them gain access to the holistic treatment approach recommended by the National Institute of Mental Health as the gold standard of care for early psychosis, due to lack of space or because insurance won't cover it. Illustration by Anna Vignet/KQED After M graduated from high school in California, she got a job at a fast food restaurant making burgers. Her coworkers were chatting over the fryer one day when M got a weird feeling, like somehow they knew what she was thinking. It was like her coworkers could read her mind and were discussing her thoughts with each other. "I was like, are they talking about burgers or are they talking about me?" says M, now 21. NPR has agreed to identify M by her middle initial because she fears the stigma around her mental illness could disrupt her career path. There was one coworker in particular, a guy she had a crush on, and she was pretty sure he was watching her. She suspected he hacked into her phone so he could listen to her conversations, find out where she was and follow her around. If she was walking down the street, or hanging out in the park, she saw him. Her mom remembers M wanted to sleep with the lights on, repeatedly asking her through the night, "Mom, is someone here?" One day, her mom said M got so paranoid, so scared, she locked herself in the bathroom and just screamed and screamed and screamed. Her mom wanted to call for help. But she didn't have a job at the time. This was about a year into the pandemic, and the hotel where M's mom worked had been closed since the first lockdown. When she lost her job, she lost her family's health benefits, too. "My husband was like, 'What is that going to cost?'" her mom remembers. © 2024 npr

Keyword: Schizophrenia
Link ID: 29076 - Posted: 01.03.2024

By Katie Engelhart The doctors told Naomi that she could not leave the hospital. She was lying in a narrow bed at Denver Health Medical Center. Someone said something about a judge and a court order. Someone used the phrase “gravely disabled.” Naomi did not think she was gravely disabled. Still, she decided not to fight it. She could deny that she was mentally incompetent — but this would probably just be taken as proof of her mental incompetence. Of her lack of insight. She would, instead, “succumb to it.” It was early 2018. She had come to the hospital voluntarily, because she was getting so thin. In the days before, she had felt her electrolyte levels dip toward the danger zone — and she had decided that, even after everything, she did not want to be dead. By then, Naomi was 37 and had been starving herself for 26 years, and she was exquisitely attuned to her body’s corrupted chemistry. At the hospital, she was admitted to the ACUTE Center for Eating Disorders & Severe Malnutrition for medical stabilization. There, doctors began what was once called refeeding but is now more commonly called nutritional rehabilitation, using an intravenous line that fed into her neck. Reintroducing food to an emaciated body can be dangerous and even lethal if done too quickly. Physicians identified this phenomenon in the aftermath of World War II, when they observed skeletal concentration-camp survivors and longtime prisoners of war eat high-caloric foods and then drop dead of cardiac failure. “Well, here I am,” Naomi said in a video message that she recorded for her parents. “I am alive, but am I happy? I don’t know. … It’s pretty pathetic. I don’t know how I feel about the fact that I would have died had I not come.” In the video, she was wearing a hot pink tank top, even though it was cool in the hospital room, because she wanted to shiver, because shivering burned calories. A few days later, when she was not imminently dying anymore, Naomi announced that she was going home — and the hospital responded by placing her on a 72-hour mental-health hold. Clinicians then obtained what Colorado calls a short-term certification, which required, by judicial order, that Naomi be detained and treated, in her case until she reached what physicians determined to be 80 percent of her “ideal body weight.” In Colorado, as in most states, a patient can be treated against her will if she is mentally ill and found incapable of making informed decisions. That day, Naomi was transferred to a residential program at Denver’s Eating Recovery Center (E.R.C.) © 2024 The New York Times Company

Keyword: Anorexia & Bulimia
Link ID: 29075 - Posted: 01.03.2024

By Regina G. Barber Human brains aren't built to comprehend large numbers, like the national debt or how much to save for retirement. But with a few tools — analogies, metaphors and visualizations — we can get better at it. erhui1979/Getty Images Imagine a horizontal line. The very left is marked one thousand and the very right is marked one billion. On this line, where would you add a marker to represent one million? If you said somewhere in the middle, you answered the same as the roughly 50 percent of people who have done this exercise in a number line study. But the answer is actually much closer to one thousand since there are one thousand millions in one billion. This error makes sense because "our human brains are pretty bad at comprehending large numbers," says Elizabeth Toomarian, an educational neuroscientist at Stanford University. She studies how the brain makes sense of numbers. Or doesn't. "Our brains are evolutionarily very old and we are pushing them to do things that we've only just recently conceptualized," says Toomarian. Instead, the human brain is built to understand how much of something is in its environment. For example, which bush has more berries or how many predators are in that clearing? But comprehending the national debt or imagining the size of our universe? "We certainly can use our brains in that way, but we're recycling these sort of evolutionarily old brain architectures to do something really new," she says. In other words, it's not our fault that we have trouble wrapping our heads around big numbers. © 2024 npr

Keyword: Attention
Link ID: 29074 - Posted: 01.03.2024

By Catherine Pearson Dry January sounds like a simple proposition: No alcohol. For 31 days. And some enthusiasts jump in without much planning — perhaps even hungover after a rowdy New Year’s Eve. There is no data suggesting that those folks won’t be able to abstain from drinking, said Dr. David Wolinsky, an assistant professor of psychiatry and behavioral sciences with Johns Hopkins Medicine, who specializes in addiction. But starting the month with a few strategies in your back pocket — and with a clear sense of your goals — may help you get the most out of the challenge. “Most of the benefits of Dry January are probably going to be related to the intention with which you go into Dry January,” Dr. Wolinsky said. The challenge isn’t a stand-in for treatment for people with alcohol use disorder, he stressed, but those who are looking to get a fresh start to the year may benefit from the mental and physical reset it can offer, and the opportunity to adopt new habits. For instance, a 2016 study found that six months after Dry January ended, participants were drinking less than they were before. We spoke to Dr. Wolinsky and other experts about some strategies for a successful month. One of the simplest steps is to spread the word among friends and family that you intend to take the month off, said Casey McGuire Davidson, a sobriety coach and host of “The Hello Someday Podcast,” which focuses on “sober-curious” topics. Research has shown that accountability can play a critical role in helping habits stick, and you might find a friend or partner to join you, Ms. Davidson suggested. Even if you don’t, you may be surprised by how encouraging people are of your goal (though she said you should share it only with people you trust). “Dry January gives people a period of time when they can stop drinking with community and support,” she said, “without a lot of questions.” Ms. Davidson also recommended reading books that may help you evaluate your relationship with alcohol, or listening to sobriety podcasts. © 2023 The New York Times Company

Keyword: Drug Abuse
Link ID: 29071 - Posted: 12.31.2023

Rudi Zygadlo To celebrate our anniversary, my partner and I dine in a trendy London restaurant in Hackney with a Michelin star – my first time in such a place. A crispy little bonbon is introduced to us simply as “Pine, kvass lees and vin brûlé.” I watch my partner light up, the flickering candle in her eyes, as the waiter sets the thing down. The impact of the aroma has already registered on her face. With her first bite she is transported to her childhood in Massachusetts. “Gosh,” she gasps, closing her eyes as a New England virgin pine forest explodes in her mind. When she blinks open, returning to the here and now, she looks at me guiltily. I take a bite and wince. No coniferous wonderland for me. Just unpleasant bitterness, confined very much to the tongue. I am pleased for her, truly. I’m a magnanimous guy. But from that moment on, the whole evening is a bit of a spectator sport and, by the end of it, I have a feeling that she is even playing her enjoyment down, muting her reactions, as if to say, “You’re not missing out.” She finds some dishes prove more successful than others – the sweetness of cherry, an umami-rich mushroom – but I am missing out: on the nuances, the emotions, the memories. The smell. It’s been three years since I lost it. November 2020. I was living with three friends in a flat in Glasgow when we all caught Covid in the pre-vaccine days. Two of us lost our smell and never fully recovered it. We’re in good company. Around 700,000 people in the UK are believed to have total smell loss caused by the virus, with around six million still experiencing some olfactory dysfunction. I estimate mine has returned by about 30%, but it’s inconsistent and often distorted. To summarise my symptoms of anosmia, as total or partial loss of smell is known: some things have a faint odour, some don’t smell as they should and others don’t smell at all. For example: basil smells mild but good, ground coffee and a certain brand of toothpaste smell like fish and, mercifully, shit doesn’t stink at all. Apart from the latter, all bad news.

Keyword: Chemical Senses (Smell & Taste)
Link ID: 29070 - Posted: 12.31.2023

By Mariana Lenharo Could artificial intelligence (AI) systems become conscious? A trio of consciousness scientists says that, at the moment, no one knows — and they are expressing concern about the lack of inquiry into the question. In comments to the United Nations, three leaders of the Association for Mathematical Consciousness Science (AMCS) call for more funding to support research on consciousness and AI. They say that scientific investigations of the boundaries between conscious and unconscious systems are urgently needed, and they cite ethical, legal and safety issues that make it crucial to understand AI consciousness. For example, if AI develops consciousness, should people be allowed to simply switch it off after use? Such concerns have been mostly absent from recent discussions about AI safety, such as the high-profile AI Safety Summit in the United Kingdom, says AMCS board member Jonathan Mason, a mathematician based in Oxford, UK and one of the authors of the comments. Nor did US President Joe Biden’s executive order seeking responsible development of AI technology address issues raised by conscious AI systems, Mason notes. “With everything that’s going on in AI, inevitably there’s going to be other adjacent areas of science which are going to need to catch up,” Mason says. Consciousness is one of them. The other authors of the comments were AMCS president Lenore Blum, a theoretical computer scientist at Carnegie Mellon University in Pittsburgh, Pennsylvania, and board chair Johannes Kleiner, a mathematician studying consciousness at the Ludwig Maximilian University of Munich in Germany. © 2023 Springer Nature Limited

Keyword: Consciousness; Robotics
Link ID: 29065 - Posted: 12.27.2023

By Elise Cutts On a summer night in the Bay of Naples, hordes of worms swam upward from the seagrass toward the water’s surface under the light of a waning moon. Not long before, the creatures began a gruesome sexual metamorphosis: Their digestive systems withered, and their swimming muscles grew, while their bodies filled with eggs or sperm. The finger-length creatures, now little more than muscular bags of sex cells, fluttered to the surface in unison and, over a few hours, circled each other in a frantic nuptial dance. They released countless eggs and sperm into the bay — and then the moonlit waltz ended in the worms’ deaths. The marine bristle worm Platynereis dumerilii gets only one chance to mate, so its final dance had better not be a solo. To ensure that many worms congregate at the same time, the species synchronizes its reproductive timing with the cycles of the moon. How can an undersea worm tell when the moon is at its brightest? Evolution’s answer is a precise celestial clock wound by a molecule that can sense moonbeams and sync the worms’ reproductive lives to lunar phases. No one had ever seen how one of these moonlight molecules worked. Recently, however, in a study published in Nature Communications, researchers in Germany determined the different structures that one such protein in bristle worms takes in darkness and in sunlight. They also uncovered biochemical details that help explain how the protein distinguishes between brighter sunbeams and softer moonglow. It’s the first time that scientists have determined the molecular structure of any protein responsible for syncing a biological clock to the phases of the moon. “I’m not aware of another system that has been looked at with this degree of sophistication,” said the biochemist Brian Crane of Cornell University, who was not involved in the new study. © 2023 An editorially independent publication supported by the Simons Foundation.

Keyword: Biological Rhythms; Evolution
Link ID: 29062 - Posted: 12.22.2023

Emily Baumgaertner This is not a work of art. It’s an image of microscopic blood flow in a rat’s brain, taken with one of many new tools that are yielding higher levels of detail in brain imaging. Here are seven more glorious images from neuroscience research → © 2023 The New York Times Company

Keyword: Brain imaging
Link ID: 29059 - Posted: 12.22.2023