Tag: brain

Scientists map human brain in more detail than ever before

Scientists are still using a 100 year-old map to identify 83 known regions of the brain, but that’s about to change. A team from Washington University in St. Louis, working with the Human Connectome Project , has plotted 97 new areas of our gray matter, bringing the total to 180. The updated map will help researchers better explore the brain and may lead to breakthroughs in autism, schizophrenia and other neurological disorders. “If you want to find out what the brain can do, you have to understand how it is organized and wired, ” says study leader Dr. David Van Essen. Scientists scanned 1, 200 test subjects with customized MRI machines packing three teslas of magnetic field strength. The patients were given simple tasks like listening to stories and doing math to see which regions lit up. They found that certain brain areas are clearly involved with, say, listening to a story, while others map a person’s field of view or control movement. The team not only developed a precise, well-defined map, but also released an “alignment algorithm” so that other researchers can repeat the tests. The researchers defined 180 regions per hemisphere, but each of those can likely be subdivided further by future researchers. And while different regions of the brain perform specific functions, they also provide assistance and pass signals to other parts of the brain. In fact, the Human Connectome Project previously determined that strong connectivity between regions of the brain was a good marker for intelligence. Using the algorithm, researchers and doctors can map a new subject’s brain in an hour or so with nearly 97 percent accuracy, even if the regions are irregular. The study should help doctors find areas affected by diseases like dementia to better see how treatments are working. Down the road, it will serve as a blueprint for further development and help us discover more about how our brain’s tick, and therefore, what makes us human. Via: The New York Times Source: Nature , WUSTL

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Scientists map human brain in more detail than ever before

How Neurosurgeons Can Now Look at Your Brain Through Your Eyes

For many years scientists have been trying to find a way to measure the pressure in a patient’s brain without having to drill a hole in the person’s skull. Although this remains the most reliable way to measure pressure in the brain it is invasive, expensive and comes with the risk of infection and bleeding. Read more…

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How Neurosurgeons Can Now Look at Your Brain Through Your Eyes

Every Neuron in a Brain Recorded in 3D on a Millisecond Timescale

To learn how the whole brain works, it doesn’t do to just record from one neuron—you want to know what every single neuron is doing every millisecond . Now scientists have invented a technique that can actually capture the 3D activity of an entire brain milliseconds at the time—possibly the most complete picture of brain activity we’ve ever had. Read more…

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Every Neuron in a Brain Recorded in 3D on a Millisecond Timescale

What Is the Resolution of the Human Eye?

The new iPhone camera is 8-megapixels. Meanwhile, Canon is reportedly testing a new DSLR with 75-megapixels. But how many megapixels is the human eye? That is, how many megapixels would an image the size of your field of vision need to be to look normal? Read more…        

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What Is the Resolution of the Human Eye?

Scientists watch how the brain makes memories for the first time ever

For the first time in history, scientists at Albert Einstein College of Medicine of Yeshiva University have captured how our brain makes memories in video, watching how molecules morph into the structures that, at the end of the day, make who we are. It’s there’s a soul, this how it gets made. Read more…        

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Scientists watch how the brain makes memories for the first time ever

Transparent skull implant is the next step in body mods (and medicine)

Researchers have been kicking around the idea of a cranial porthole for years – a skylight for your skull that doctors could peer through to monitor brain cancer, or treat neurological disorders. But glass is too fragile, and traditional skull implants are opaque. Now, a team of bioengineers has developed an implant using a strong, transparent material that could make brain-windows a reality. Read more…        

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Transparent skull implant is the next step in body mods (and medicine)

Brave New UI: A Fleet of Dust-Sized Sensors Embedded In Your Brain

A few weeks ago, we wrote about a tiny micro-bot designed to be injected into a patient’s eye and controlled via magnet—a speck-sized eye surgeon. This week, a group of Berkeley researchers published a study positing a similar concept, except the ‘bots are inside your brain . And they’re the size of dust particles. It’s called neural dust. Of course. Read more…        

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Brave New UI: A Fleet of Dust-Sized Sensors Embedded In Your Brain

Foc.us headset claims to shock the brain for better gaming, we go forehead-on

We’ve seen a number of headsets tap into the mind, to geotag your mood , grant you remote control over gadgets or simply let you wiggle a pair of cat ears . None of those are quite like the foc.us, however, which serves up transcranial direct-current simulation (tDCS) — a controversial form of neurosimulation that transmits current to a particular area of the brain. Originally used to help patients with brain injuries, tDCS has supposedly been found to increase cognitive performance in healthy adults. These claims haven’t been proven yet though, and shocking your own cranium isn’t exactly FDA approved. Still, the foc.us is one of a few tDCS headsets designed for the consumer market and can, the inventor Michael Oxley claims, improve your working or short-term memory when the electrodes are placed on your prefrontal cortex. A low-intensity current is passed through the different nodes, exciting that part of the brain. Interestingly, Oxley is positioning it as a way to boost your video gaming prowess for the “ultimate gaming experience,” a concept we found a little odd. That said, you don’t actually have to wear the headset while shooting up bad guys or other brain-draining tasks. The idea behind the foc.us headset is to put it on your noggin, fire it up, and wait for around five to ten minutes, then take it off and go about your day. We did just that and all the gory details are after the break. Gallery: foc.us Filed under: Science Comments Source: foc.us

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Foc.us headset claims to shock the brain for better gaming, we go forehead-on

Universities inject neuron-sized LEDs to stimulate brains without a burden (video)

Existing methods for controlling brain activity tend to skew the results by their very nature — it’s difficult to behave normally with a wad of optical fibers or electrical wires in your head. The University of Illinois and Washington University have developed a much subtler approach to optogenetics that could lift that weight from the mind in a very literal sense. Their approach inserts an extra-thin ribbon into the brain with LEDs that are about as big as the neurons they target, stimulating deeper parts of the mind with high precision and minimal intrusion; test mice could act as if the ribbon weren’t there. The solution also lets researchers detach the wireless transceiver and power from the ribbon to lighten the load when experiments are over. Practical use of these tiny LEDs is still a long ways off, but it could lead to both gentler testing as well as better treatment for mental conditions that we don’t fully understand today. Filed under: Science , Alt Comments Via: Mobile Magazine Source: University of Illinois

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Universities inject neuron-sized LEDs to stimulate brains without a burden (video)

Starved brains kill memory-making to survive

“Thanks for the memories, but I’d prefer a bite to eat.” UFL.edu As the organ responsible for maintaining equilibrium in the body and the most energy-demanding of all the organs, the brain takes a lot of the body’s energy allocation. So when food is in short supply, the brain is the organ that is fed first. But what happens when there isn’t enough food to fulfill the high-energy needs of the brain and survival is threatened? The brain does not simply self-allocate available resources on the fly; instead it “trims the fat” by turning off entire processes that are too costly. Researchers from CNRS in Paris created a true case of do-or-die, starving flies to the point where they must choose between switching off costly memory formation or dying. When flies are starved, their brains will block the formation of aversive long-term memories, which depend on costly protein synthesis and require repetitive learning. But that doesn’t mean all long-term memories are shut down. Appetitive long-term memories, which can be formed after a single training, are enhanced during a food shortage. Read 3 remaining paragraphs | Comments

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Starved brains kill memory-making to survive