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Tiny area of brain may be 'engine of consciousness', scientists suggest
A recent study on monkeys found that stimulating a certain part of the forebrain wakes monkeys from anesthesia.
- Scientists electrically stimulated the brains of macaque monkeys in an effort to determine which areas are responsible for driving consciousness.
- The monkeys were anesthetized, and the goal was to see whether activating certain parts of the brain would wake up the animals.
- The forebrain's central lateral thalamus seems to be one of the "minimum mechanisms" necessary for consciousness.
New research suggests a tiny part of the brain plays a key role in enabling consciousness. The findings might someday be used to bring people out of comas, treat consciousness disorders or ensure patients stay anesthetized during intensive procedures.
Past research has suggested that certain brain areas, like the parietal cortex and thalamus, are critical to consciousness. In the new study, published Wednesday in Neuron, a team of scientists used electrodes to stimulate various parts of the brains of two macaque monkeys. Macaque brains closely mirror human brains, making them an ideal model for studying the drivers of consciousness.
The team electrically stimulated the monkeys' brains as the animals were awake, asleep, and anesthetized. But unlike past research, they recorded activity from multiple brain areas simultaneously in an effort to pinpoint which parts are driving consciousness.
"We decided to go beyond the classical approach of recording from one area at a time," senior author Yuri Saalmann, an assistant professor at the University of Wisconsin, Madison, told Cell Press. "We recorded from multiple areas at the same time to see how the entire network behaves."
The goal was to identify the "minimum mechanisms" necessary to produce consciousness. To do that, the researchers tested whether stimulating certain parts of the brain would cause the monkeys to wake up from the anesthesia. The electrodes were specially designed to mimic the kind of brain activity that monkeys show during a wakeful state.
"This allowed us to directly manipulate consciousness and record changes in communication and information flow with a very high degree of spatial and temporal specificity," study co-author Michelle Redinbaugh, a researcher at the University of Wisconsin, Madison, told Inverse.
When the team electrically stimulated a part of the brain called the central lateral thalamus, located in the forebrain, the monkeys woke up: they opened their eyes, blinked, reached out, made facial expressions and showed altered vital signs.
"We found that when we stimulated this tiny little brain area, we could wake the animals up and reinstate all the neural activity that you'd normally see in the cortex during wakefulness," Saalmann told Cell Press. "They acted just as they would if they were awake. When we switched off the stimulation, the animals went straight back to being unconscious."
This area of the brain may function as an "engine for consciousness," Redinbaugh told Inverse. Although past studies have shown that electrical stimulation can arouse the brains of humans and animals, the new findings are unique because they reveal which specific neural interactions appear to be minimally necessary for consciousness.
"Science doesn't often leave opportunity for exhilaration, but that's what that moment was like for those of us who were in the room," Redinbaugh told Inverse.
The team said the findings could have many applications down the road, but more research is needed.
"The overriding motivation of this research is to help people with disorders of consciousness to live better lives," Redinbaugh told Cell Press. "We have to start by understanding the minimum mechanism that is necessary or sufficient for consciousness, so that the correct part of the brain can be targeted clinically."
"It's possible we may be able to use these kinds of deep-brain stimulating electrodes to bring people out of comas. Our findings may also be useful for developing new ways to monitor patients under clinical anesthesia, to make sure they are safely unconscious."
- Consciousness: How Do You Study What You Can't Define? - Big ... ›
- Will We Ever Understand the Nature of Consciousness? - Big Think ›
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Construction of the $500 billion dollar tech city-state of the future is moving ahead.
- The futuristic megacity Neom is being built in Saudi Arabia.
- The city will be fully automated, leading in health, education and quality of life.
- It will feature an artificial moon, cloud seeding, robotic gladiators and flying taxis.
The Red Sea area where Neom will be built:
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Are we genetically inclined for superstition or just fearful of the truth?
- From secret societies to faked moon landings, one thing that humanity seems to have an endless supply of is conspiracy theories. In this compilation, physicist Michio Kaku, science communicator Bill Nye, psychologist Sarah Rose Cavanagh, skeptic Michael Shermer, and actor and playwright John Cameron Mitchell consider the nature of truth and why some groups believe the things they do.
- "I think there's a gene for superstition, a gene for hearsay, a gene for magic, a gene for magical thinking," argues Kaku. The theoretical physicist says that science goes against "natural thinking," and that the superstition gene persists because, one out of ten times, it actually worked and saved us.
- Other theories shared include the idea of cognitive dissonance, the dangerous power of fear to inhibit critical thinking, and Hollywood's romanticization of conspiracies. Because conspiracy theories are so diverse and multifaceted, combating them has not been an easy task for science.
A growing body of research suggests COVID-19 can cause serious neurological problems.
- The new study seeks to track the health of 50,000 people who have tested positive for COVID-19.
- The study aims to explore whether the disease causes cognitive impairment and other conditions.
- Recent research suggests that COVID-19 can, directly or indirectly, cause brain dysfunction, strokes, nerve damage and other neurological problems.
Brain images of a patient with acute demyelinating encephalomyelitis.
COVID-19 and the brain<p>A growing body of research reveals alarming neurological complications among COVID-19 patients. On Wednesday, for example, researchers from University College London published a <a href="https://academic.oup.com/brain/article/doi/10.1093/brain/awaa240/5868408" target="_blank">study</a> in the journal Brain that describes how some patients have suffered temporary brain dysfunction, strokes, nerve damage, and other neurological problems concurrent with COVID-19.</p><p>Some patients suffered brain inflammation as a result of a rare disease called acute disseminated encephalomyelitis, which can cause numbness, seizures, and confusion. One patient in the study even hallucinated monkeys and lions in her home.</p>
Photo by Mario Tama/Getty Images<p>A separate study published in the <a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7198407/" target="_blank">Journal of Clinical Neuroscience</a> notes that some COVID-19 patients have also suffered neurological complications like impaired consciousness and acute cerebrovascular disease. The study notes that past viruses like MERS and SARS also seemed to cause neurological problems.</p><p>A troubling finding among this growing body of research is that some patients seem to suffer neurological damage even when respiratory symptoms aren't obvious. Additionally, scientists aren't sure whether damage from the disease will be permanent.</p><p style="margin-left: 20px;">"Given that the disease has only been around for a matter of months, we might not yet know what long-term damage COVID-19 can cause," Dr. Ross Paterson, joint first author of the University College London study, said in a <a href="https://www.eurekalert.org/pub_releases/2020-07/ucl-iid070620.php" target="_blank">press release</a>. "Doctors needs to be aware of possible neurological effects, as early diagnosis can improve patient outcomes."</p><p>If you've been diagnosed with COVID-19 and want to enroll in the study, visit <a href="https://www.cambridgebrainsciences.com/studies/covid-brain-study" target="_blank">cambridgebrainsciences.com/studies/covid-brain-study</a>.</p>
Coronavirus layoffs are a glimpse into our automated future. We need to build better education opportunities now so Americans can find work in the economy of tomorrow.