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STAT

In this video, Prof. Canan Dagdeviren speaks with STAT about her group’s work developing a new, self-powered implantable device that can be used to relay information about the human body. “The physical patterns of human beings contain information in coded ways, and we would like to decode and understand what these patterns are telling us,” Dagdeviren explains.

Xinhuanet

Researchers from a number of universities, including MIT, have developed a new refillable, implantable device that can deliver drugs to the heart tissue to help treat a heart attack, reports Xinhua. "After a heart attack we could use this device to deliver therapy to prevent a patient from getting heart failure," explains Prof. Ellen Roche.

Fast Company

Fast Company reporter Adele Peters writes that MIT researchers have designed a kit that allows scientists to develop diagnostic tests quickly and cheaply. The kit, “uses modular blocks that can be connected in different patterns to replicate the function that would typically be built into a manufactured test for pregnancy, glucose, or an infection or other disease.”

Forbes

MIT spinout Myomo has developed a robotic brace to aid in the reduction of neurological-related limb paralysis. “With the robotic brace, patients use their own muscle signals to control movements of a paretic or injured arm,” writes Jennifer Kite-Powell for Forbes. “[T]he brace amplifies their weak muscle signal to help move the limb.”

co.design

Empatica, a startup founded by Prof. Rosalind Picard, makes a wearable sensor that detects a person’s seizures, as well as certain physiological factors. Picard discussed the potential benefits of her work with Co.Design’s Katherine Schwab: “[W]hen you get personalized, long-term data from a watch or a phone, we can start to help an individual learn [their] patterns, not on average for some group you may be an outlier in.”

CBS Boston

CBS Boston spotlights how Portal Instruments, an MIT startup, is bringing a needle-free injector to the market, which could change the way people take medicine. The device, “fires a pressurized spray to penetrate the skin, instead of piercing the skin with traditional needles.”

Forbes

Prof. Canan Dagdeviren and her “Comfortable Decoders” group are developing a new device aimed at deciphering the body’s vital signs and delivering medication, writes Hilary Brueck for Forbes. The device will use “body movement as a powerhouse to monitor and record what's happening inside us,” explains Brueck.

HuffPost

Writing for The Huffington Post, Audrey Henkels spotlights MDaaS (Medical Devices as a Service), which was co-founded by MIT alumnus Oluwasoga Oni. MDaas supplies and services affordable medical equipment for hospitals in Nigeria, which allows them to provide “critical lifesaving tools they need to improve the health outcomes,” Henkels explains.

Financial Times

In an article for the Financial Times about new health care technologies, Sarah Murray highlights Prof. Rosalind Picard’s work developing wearable monitoring devices that could help people with conditions like epilepsy. “Wearables are going to be much bigger than anyone imagined,” says Picard.

Straits Times

Straits Times reporter Pang Xue Qiang writes that researchers at the Singapore-MIT Alliance for Research and Technology (SMART) have developed a sensor that can monitor and regulate the fluid flow of an IV drip. The researchers hope that the sensor will reduce the burden on hospital staff. 

US News & World Report

In an article for U.S. News & World Report about innovations for seniors, Teresa Mears reports that MIT researchers are developing a shirt that can sense a heart attack and administer CPR. While “such a shirt is [probably] 15 years away, shirts with sensors are already on the market, used primarily by athletes,” writes Mears. 

Boston Herald

Lindsay Kalter reports for The Boston Herald that researchers from MIT, Philips, and Boston Medical Center are developing a non-invasive way to diagnose head injuries. Kalter explains that the study is part of a new collaboration between MIT and Philips and will “use data from an ultrasound machine taking measurements of blood pressure and flow.”

BetaBoston

Researchers from MIT, Philips and Boston Medical Center are collaborating on new technology to diagnose brain injuries, reports Nidhi Subbaraman for BetaBoston. “The goal is to investigate whether ultrasound readers can help doctors assess the severity of a head injury,” Subbaraman writes. 

Boston.com

A team led by Prof. Michael Cima is developing an implantable sensor that can monitor a tumor’s response to cancer drugs, writes Eric Levenson for Boston.com. “The sensor would function like a long-term medical biopsy, giving doctors a continuous look at how a tumor is developing,” Levenson explains. 

Boston Magazine

Jamie Ducharme writes for Boston Magazine that MIT researchers are developing a biochemical sensor that could provide updates on cancerous tumors. The sensor “could be implanted in cancerous tissue during a patient’s first biopsy. After that, it would stay in the tissue and transmit data about the state of the tumor to an external device.”