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Science

Postdoctoral researchers Marin and Lukas Vogelsang speak with Science reporter Christie Wilcox about their recent work finding “the poor color vision that newborns normally have actually helps them develop well-rounded vision overall.” “The question that really drove this study is why we are so good at recognizing faces and objects in black and white photos and movies,” explains Marin Vogelsang. “And we found an answer to this when studying children in India who were born blind and were treated for their blindness as a part of Project Prakash.”

The Boston Globe

President Biden has awarded Prof. Emeritus Subra Suresh ScD '81, the former dean of the MIT School of Engineering, the National Medal of Science for his “pioneering research across engineering, physical sciences, and life sciences,” reports Alexa Gagosz for The Boston Globe. Prof. James Fujimoto '79, SM '81, PhD '84, research affiliate Eric Swanson SM '84, and David Huang '85, SM '89, PhD '93 were awarded the National Medal of Technology and Innovation, “the nation’s highest award for technical achievement.”

STAT

STAT reporter Annalisa Merelli writes that the 2023 Lasker Award has been given to Prof. James Fujimoto, research affiliate Eric Swanson SM ’84 and David Huang PhD ’93 for their work advancing the diagnosis of eye disease. Fujimoto, Swanson and Huang developed “optical coherence tomography (OCT) — the first noninvasive technology allowing doctors to see high-resolution images of the retina.”

The New York Times

Prof. James Fujimoto, research affiliate Eric Swanson SM ’84 and David Huang PhD ’93 have won a Lasker Award for their work inventing optical coherence tomography, which can “detect conditions like macular degeneration and diabetic retinopathy earlier than previous methods, preventing blindness,” reports Noah Weiland and Cade Metz for The New York Times. “O.C.T. now is commonly used in ophthalmology offices, where the patient simply rests a chin and forehead against an instrument for a brief scan,” write Weiland and Metz. “The method, invented in 1991, offers a staggering amount of detail about the retina.”

The Boston Globe

Prof. James Fujimoto, research affiliate Eric Swanson SM ’84 and David Huang PhD ’93 have been honored with the Lasker Award for their work for their work inventing “imaging technology that revolutionized how ophthalmologists diagnose diseases of the eye," reports Jonathan Saltzman for The Boston Globe. The scientists were recognized for developing “optical coherence tomography, or OCT, the first technology that enabled doctors to see a two- and three-dimensional cross-sectional image of the retina,” Saltzman explains. “This painless scan takes less than 10 minutes, and is now the standard of care for diagnosing retina diseases.”

Quanta Magazine

Researchers at MIT have found “the brain is not wired to transmit a sharp ‘stop’ command in the most direct or intuitive way,” reports Kevin Hartnett for Quanta Magazine. The brain “employs a more complicated signaling system based on principles of calculus,” writes Hartnett.

National Public Radio (NPR)

Prof. Mark Bear speaks with NPR’s Jon Hamilton about how injecting tetrodotoxin, a paralyzing nerve toxin found in puffer fish, could allow the brain to rewire in a way that restores vision and help adults with amblyopia or "lazy eye." Bear explains that: “Unexpectedly, in many cases vision recovered in the amblyopic eye, showing that that plasticity could be restored even in the adult.”

New Scientist

In an interview with Clare Wilson of New Scientist, Prof. Ed Boyden, one of the co-inventors of the field of optogenetics, discusses how the technique was used to help partially restore vision for a blind patient. “It’s exciting to see the first publication on human optogenetics,” says Boyden.

New York Times

Prof. Ed Boyden speaks with New York Times reporter Carl Zimmer about how scientists were able to partially restore a patient’s vision using optogenetics. “So far, I’ve thought of optogenetics as a tool for scientists primarily, since it’s being used by thousands of people to study the brain,” says Boyden, who helped pioneer the field of optogenetics. “But if optogenetics proves itself in the clinic, that would be extremely exciting.”

Smithsonian Magazine

Smithsonian reporter Theresa Machemer writes that a new study by MIT researchers shows that C. elegans are able to sense and avoid the color blue.

National Geographic

Prof. James Fujimoto and research affiliate Eric Swanson have been named recipients of the Sanford and Sue Greenberg Prize to End Blindness, reports Sandrine Ceurstemont for National Geographic. “The winners were chosen based on the strength of their contributions to eliminate blindness, the ambitious aim set out by the prize organizers in 2012,” Ceurstemont explains.

The Wall Street Journal

Wall Street Journal reporter Alison Gopnik writes about Prof. Pawan Sinha’s research examining how humans acquire specific visual abilities. Sinha’s latest research into how people learn to differentiate between faces and other objects showed that children who had their vision restored were able to learn “the skill and eventually they did as well as sighted children.”

The Atlantic

MIT researchers have found similarities in how the brains of babies and adults respond to visual information, reports Courtney Humphries for The Atlantic. “Every region that we knew about in adults [with] a preference for faces or scenes has that same preference in babies 4 to 6 months old,” explains Prof. Rebecca Saxe. 

Forbes

A team of MIT students has developed a device that can convert text to braille in real-time, reports Devin Thorpe for Forbes. Undergrad Jialin Shi explains that the team hopes the device “will be able to increase the braille literacy rate, and in turn, increase the employment rate of adults with significant vision loss.”

Science

In an article for Science, Rhitu Chatterjee writes about Project Prakash, an effort started by Prof. Pawan Sinha to help children with preventable or treatable blindness see. Chatterjee writes that the project has brought hundreds of young people, “into the light—while putting the field of visual neuroscience in a new light as well.”