Los Angeles Times reporter Melissa Healy writes that a new study by MIT researchers provides evidence that acoustic and visual stimulation could improve Alzheimer’s symptoms. “The study’s central finding — that inducing electrical synchrony touched off such a widespread range of effects — suggests there might be a single key lever that can preserve or restore order in brains made 'noisy' by age and disease,” Healy explains.
A study by MIT researchers shows that exposing patients to flashing light and pulsing sounds could reverse Alzheimer’s symptoms, reports Angus Chen for Scientific American. “This is the first time we’ve seen that this noninvasive stimulation can improve cognitive function,” says Prof. Li-Huei Tsai.
New York Times reporter Pam Belluck writes that MIT researchers have found exposure to a specific combination of light and sound could improve Alzheimer’s symptoms. “It’s stunning that the intervention had beneficial effects on so many different aspects of Alzheimer-like pathology,” said Dr. Lennart Mucke, director of the Gladstone Institute of Neurological Disease.
Fast Company reporter Mark Wilson writes that CSAIL researchers have developed a new soft robotic gripper that is modeled after a Venus flytrap. “Dubbed the Magic Ball, it’s a rubber and plastic structure that can contract around an object like an origami flower,” Wilson explains.
Dr. Francis Collins, director of the NIH, details how MIT researchers have developed a new low-energy imaging approach called three-photon microscopy that allows exploration of all six layers of the visual cortex in a mammal’s brain. Collins notes that the researchers are proving themselves to be “biological explorers of the first order.”
CSAIL researchers have developed a new robotic gripper that contains an origami skeleton, enabling the device to open and close like a flower and grasp a variety of delicate and heavy objects, reports James Vincent for The Verge “By combining this foldable skeleton with the soft exterior, we get the best of both worlds,” explains Prof. Daniela Rus, director of CSAIL.
TechCrunch reporter Brian Heater writes that researchers at CSAIL and Harvard have developed a soft robotic gripper that can both handle delicate objects and lift items up to 100 times its own weight. “The gripper itself is made of an origami-inspired skeletal structure, covered in either fabric or a deflated balloon,” explains Heater.
Prof. Polina Anikeeva speaks with Forbes contributor Poornima Peiris about her work developing materials that could be used to help explore and better understand the brain and nervous system. “I am not interested in just improving things, I want to work on innovative ideas,” says Anikeeva.
Forbes contributor David DiSalvo highlights Prof. Alan Jasanoff’s book, “The Biological Mind: How Brain, Body and Environment Collaborate to Make Us Who We Are” on his list of the must-read brain books of 2018. “Rather than being another assessment of what the brain does, this one is about what it is—and more interestingly what it is not,” writes DiSalvo.
Getting the recommended seven to nine hours of sleep helps your brain function at its peak on a daily basis, writes Senior Lecturer Tara Swart for Forbes. Sleep helps to remove the by-products of neural activity, so “when sleep is poor and this process is impaired, these waste products build up, leading to cognitive decline,” Swart warns.
Prof. Earl Miller speaks with BuzzFeed reporter Terri Pous about the problems posed by multitasking. When it comes to juggling two tasks like driving and talking on the phone, Miller notes that "when someone is on the phone with you, they have no idea what’s going on in front of you. That’s just plain dangerous for drivers and anyone around them."
MIT researchers have made electrical recordings of individual brain cells, which may provide insight into human intelligence, reports Hannah Osborne of Newsweek. Researchers discovered that human cells have fewer ion channels, which allow electrical currents to enter and exit cells, potentially increasing “the resistance of human dendrites, making the cell better at processing information,” explains Osborne.
MIT researchers have found that the large size of neurons in the human brain allows for electrical compartmentalization, which may contribute to the human brain’s complex cognitive capabilities, writes UPI reporter Brooks Hays.
Prof. Mark Harnett has found that each individual cell in the human brain could operate like a mini-computer, reports Clare Wilson for New Scientist. Wilson explains that “the study has revealed a key structural difference between human and mouse neurons that could help explain our superior powers of intelligence.”
In an article for The New York Times, Prof. Alan Jasanoff reviews Eric Kandel’s book, “The Disordered Mind.” Jasanoff writes that the book provides an engaging “overview of contemporary thinking about the intersection of mental health and neuroscience.”