Harvard-MIT Health Sciences and Technology

Axios reporter Erin Broadwin spotlights Dimagi, a digital tool for health workers in remote areas that was started by researchers from the MIT Media Lab and the Harvard-MIT Health Sciences and Technology program.

Wall Street Journal reporter John Anderson spotlights “Augmented” a new PBS documentary featuring Prof. Hugh Herr and his work in robotic limbs and surgery.

A new documentary titled “Augmented” spotlights Prof. Hugh Herr and his work developing bionic limbs at the MIT Media Lab, reports Dana Gerber for The Boston Globe. “The long-term hope for the procedure is that people with Ewing amputations will be able to further adapt to the bionic limbs shown in the film, which Herr’s team is developing at MIT,” writes Gerber.

Dr. Warren Zapol ’62, an anesthesiologist at Massachusetts General Hospital who made breakthroughs in studying the impact of inhaled nitric oxide, died on Dec. 14, 2021, at the age of 79, reports Bryan Marquard for The Boston Globe. “Warren’s discovery and demonstration that nitric oxide is a highly effective therapy for pulmonary hypertension in newborns and in adults is one of the most significant achievements in recent intensive care medicine history,” says Prof. Emery N. Brown, director of the Harvard-MIT Health Sciences and Technology program.

Salon reporter Elizabeth Landau spotlights the work of researchers from MIT and the Massachusetts Eye and Ear Infirmary in uncovering how Covid-19 can affect the ear. Viruses such as Covid-19, “all have these tentacles that seem to touch the ear, but nobody’s been able to study them because the ear is so inaccessible,” says Prof. Lee Gehrke. “So that’s the part that I think I get most excited about. Now we have a way to look at these things in a way that we were not able to do before.”

Researchers from MIT and Massachusetts Eye and Ear have found that Covid-19 can cause long-term issues with a patient’s ear, reports Matthew Rozsa for Salon. The researchers found that the SARS-CoV-2 virus is capable of infecting the hair cells of the inner ear, as well as (to a lesser extent) the Schwann cells,” Rozsa explains.

Forbes reporter William A. Haseltine spotlights an MIT and Massachusetts Eye and Ear study that finds the inner ear can be infected by Covid-19. “When exposed to SARS-CoV-2,” writes Haseltine, the researchers, "found that the vestibular hair cells on the inner ear, which helps us keep our balance and sense head movements, had an infection rate of 26%, making them particularly vulnerable." 

Scientific American reporter Emily Sohn writes that MIT researchers have found that vision and hearing can be impacted by the virus that causes Covid-19. “The data are growing to suggest that there are more neural consequences of this infection than we originally thought,” says Prof. Lee Gehrke.

Reuters reporter Nancy Lapid writes that researchers from MIT and other institutions have found that Covid-19 can infect cells in the inner ear, which “may help explain the balance problems, hearing loss and tinnitus, or ringing in the ears experienced by some COVID-19 patients.”

A new study by MIT researchers finds that Covid-19 may impact the inner ear, affecting hearing and balance, reports Robert Preidt for HealthDay News. “Their results suggest that the SARS-CoV-2 virus can infect the inner ear, specifically hair cells that are crucial for hearing and balance,” writes Preidt. “To a lesser degree, the coronavirus can infect Schwann cells, which insulate neurons.”

A new amputation technique being developed by MIT researchers provides patients with more sensory feedback from prosthetic limbs, writes Anjana Ahuja for the Financial Times. “The technique could transform the way that amputation has long been viewed,” writes Ahuja, “not as a last-resort method that subtracts from the body but an act of rejuvenation with the potential to restore a sense of completeness.”

Here & Now’s Scott Tong speaks with Gideon Gil of STAT about a new technique for amputation surgery developed by researchers from MIT and Brigham and Women’s Hospital that recreates muscle connections and restore the brain’s ability to sense where and how one’s limbs are moving.

Prof. Dava Newman, director of the MIT Media Lab, speaks with Mark Wilson of Fast Company about her vision for the future of the Media Lab. “We’re going to be a diverse and equitable place, we have to have everyone at the table,” says Newman. “We do have these special talents. We can see solutions in envisioning things that are further out. We are built on literal media and data, so we don’t shy away from any technical challenges.”

Researchers from MIT have developed a new kind of surgery that could offer amputees better control of their muscles and prosthetic limbs after surgery, reports Cara Murez for U.S. News & World Report. “In this new type of surgery — called agonist-antagonist myoneural interface, or AMI — surgeons reconnect those muscle pairs so they retain the push-pull relationship they've always had and improve sensory feedback,” writes Murez.

Mashable spotlights how MIT researchers have developed a new type of amputation surgery that could “help amputees better control their residual muscles and sense where their ‘phantom limb’ is in space.”