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National Institutes of Health (NIH)

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CNN

Reporting for CNN, Scottie Andrew highlights how researchers from MIT and Brigham and Women’s Hospital developed the iMASC, a silicon mask that can be reused and sterilized multiple times. Andrew notes that the mask is “a promising step toward addressing the critical healthcare supply shortages.”

CNBC

CNBC reporter Cory Stieg writes about how researchers from MIT and Brigham and Women’s Hospital created a new reusable silicon mask with slots for small disposable N95 filters. “The masks themselves can be quickly and easily sterilized and reused, and though the small filters must be thrown out, each mask requires much less N95 material,” writes Stieg.

Fast Company

Fast Company reporter Adele Peters writes that researchers from MIT and Brigham and Women’s Hospital have developed a new face mask that is made of silicon and designed to be reused and sterilized repeatedly. “We wanted to have a system that could be accessible and used by anyone globally,” says Prof. Giovanni Traverso

CNBC

CNBC reporter Will Feur spotlights how researchers from MIT are working with 3M on developing a rapid coronavirus antigen test. The test “will be a paper-based point-of-care testing device, which will help reduce the cost,” Feur explains.

Reuters

Researchers from MIT and 3M are developing a new rapid antigen test for Covid-19, reports Carl O’Donnell for Reuters. “The test would produce results within minutes and could be administered on a low-cost, paper-based device, similar to a home pregnancy test, that could be delivered at the point of care,” writes O’Donnell.

TechCrunch

TechCrunch reporter Darrell Etherington writes that researchers from MIT and 3M are working on creating a new diagnostic tool for Covid-19 that can be manufactured cheaply and in large volumes for mass distribution. “The goal is to create a test that detects viral antigens,” Etherington explains, adding that the tests “provide results much faster than the molecular PCR-based test.”

CBS Boston

Prof. Giovanni Traverso speaks with CBS Boston about a new silicon mask with N95 filters that can be reused and sterilized. “We recognize that not everybody has the sophisticated sterilization equipment but we also recognize that many folks around the world would have access to some kind of an oven or perhaps a solution of chlorine,” says Traverso.

United Press International (UPI)

UPI reporter Sommer Brokaw writes that researchers from MIT and Brigham and Women’s Hospital have created a new reusable silicon face mask with N95 filters. “The new masks have space for one or two N95 filters to be replaced after each use, and the rest of the rubber mask itself can be sterilized and reused many times,” writes Brokaw.

WHDH 7

Researchers from MIT and Brigham and Women’s Hospital have designed a new reusable face mask outfitted with N95 filters that can be sterilized, reports WHDH.

Boston Globe

Researchers from MIT and Brigham and Women’s Hospital have developed a new silicon mask with N95 filters that can be sterilized and reused, reports Martin Finucane for The Boston Globe. “The mask is made of silicone rubber and includes one or two detachable N95 filters, but those filters require much less N95 material than a traditional N95 mask,” writes Finucane.

NIH

Dr. Francis Collins, director of the NIH, spotlights a video created by Prof. Kwanghun Chung that takes viewers on a voyage through a region of the brain that controls voluntary movement. Thanks to imaging techniques like Chung’s, “mapping the biocircuitry of the brain just keeps getting better all the time,” Collins explains.

WBUR

A new study by MIT researchers finds that there are differences in how genes are used in men and women, reports Angus Chen for WBUR. “I think we are at present missing a lot because we operate with what is essentially a unisex model in biomedical research,” explains Prof. David Page.

Forbes

MIT researchers have created an app that translates proteins into music, reports Eva Amsen of Forbes. This method could potentially be used to “make it easier to process very subtle changes that would be less obvious if you looked at the data visually,” Amsen explains.

Science Friday

Prof. Markus Buehler speaks with Ira Flatow of Science Friday about his research, which attempts to better understand and create new proteins by translating them into music. Buehler explains that they were able to listen to proteins after discovering that “amino acids have a unique frequency spectrum which we could then make audible using a concept of transposition.”

STAT

Diana Cai writes for STAT about Prof. Markus Buehler’s new research to turn amino acids into music. “Buehler thinks the technology could help in understanding genetic diseases caused by misfolded proteins,” writes Cai, noting that, “AI may conceivably ‘hear’ patterns of misfolding that could distinguish dangerous mutations from harmless ones.”