A new study by MIT researchers finds that lack of social contact can lead many people to crave interactions in a similar manner as they do when experiencing hunger, reports Katherine Dunn for Fortune. The researchers found that “10 hours without any social contact, for many people, led to a kind of psychological and physical craving that's on the same level of intensity as 10 waking hours without food.”
MIT researchers have uncovered evidence that humans crave social contact in the same way they crave food, reports Ali Pattillo for Inverse. The study, “provides empirical support for the idea that loneliness acts as a signal – just like hunger – that signals to an individual that something is lacking and that it needs to take action to repair that," explains former MIT postdoc Livia Tomova.
The Association for the Advancement of Artificial Intelligence has awarded Prof. Regina Barzilay a $1 million prize for her work advancing the use of AI in medicine, reports John McCormick for The Wall Street Journal. "Regina is brilliant, has very high standards, and is committed to helping others,” says Prof. James Collins. “And I think her experience with—her personal experience with cancer—has motivated her to apply her intellectual talents to using AI to advance health care.”
The AP highlights how Prof. Regina Barzilay has been named the inaugural winner of a new award given by the Association for the Advancement of Artificial Intelligence for her work “using computer science to detect cancer and discover new drugs has won a new $1 million award for artificial intelligence.”
Prof. Regina Barzilay has been named the inaugural recipient of the Squirrel AI Award for Artificial Intelligence to Benefit Humanity for her work developing new AI techniques to help improve health care, reports Rebecca Robbins for STAT. Robbins writes that Barzilay is focused on turning the “abundance of research on AI in health care into tools that can improve care.”
A CRISPR-based diagnostic test for Covid-19 developed by researchers from MIT and the Broad Institute could produce results within an hour, reports Deborah Becker for WBUR. "Using these technologies will really allow for much more rapid testing — down from days to sometimes less than an hour," said McGovern fellow Jonathan Gootenberg. "That would enable a drastic change in how the tracing and handling of the pandemic is done."
A new center established at the McGovern Institute for Brain Research is aimed at accelerating the development of novel therapies and technologies, writes Katie Jennings for Forbes. The hope is that “we can identify common pathways, either a common molecular pathway that's a chokepoint for a therapy or a common group of neurons or neural systems,” says Prof. Robert DeSimone, director of the McGovern Institute.
Boston Globe reporter Felice Freyer writes about the K. Lisa Yang and Hock E. Tan Center for Molecular Therapeutics in Neuroscience, which was established at the McGovern Institute for Brain Research thanks to a $28 million gift from philanthropist Lisa Yang and MIT alumnus Hock Tan ’75. “The center will develop tools to precisely target the malfunctioning genes and neurons underpinning brain disorders,” writes Freyer.
TechCrunch reporter Taylor Hatmaker writes that MIT researchers will led a new NSF-funded research institute focused on AI and physics.
Researchers from MIT's Laboratory for Nuclear Science will lead a new research institute focused on advancing knowledge of physics and AI, reports Jared Council for The Wall Street Journal. The new research institute is part of an effort “designed to ensure the U.S. remains globally competitive in AI and quantum technologies.”
A new study by MIT researchers finds that the inferior temporal cortex region of the brain was repurposed to recognize letters and words, providing humans the ability to read, reports Brooks Hays for UPI.
WBUR’s Carey Goldberg explores how MIT researchers developed a new CRISPR-based research tool that can be used to detect Covid-19. "A lot of things that we try fail," says research scientist Jonathan Gootenberg. "And that’s OK. Because sometimes you find these things that are really, really awesome."
MIT researchers have developed artificial muscles that can stretch more than 1,000 percent of their size and lift more than 650 times their weight, reports Sid Perkins for Scientific American. The new fibers could have applications in robotics and prosthetic devices, Perkins explains, and “work more like real muscles: they do work by pulling on or lifting objects.”
Reporting for WBUR, Carey Goldberg highlights how MIT researchers have developed a new RNA editing tool that could be used to tweak a gene that raises the risk of Alzheimer’s disease. As the effects of RNA editing are not permanent, “it's almost like a small, pill-like version of gene therapy,” explains research scientist and McGovern Fellow Omar Abudayyeh.
Researchers from MIT and other institutions have developed a new model for autism research that could enable new therapies and treatments, reports the Xinhua news agency. The model could “provide a basis for a deeper understanding of the neurobiological mechanisms of autism and the development of more transformative therapeutics.”