James J. Collins named a Citation Laureate He was named to a list of 23 world-class researchers from institutions in five countries whose work is deemed to be of Nobel class. MIT researchers combine deep learning and physics to fix motion-corrupted MRI scans The challenge involves more than just a blurry JPEG. Fixing motion artifacts in medical imaging requires a more sophisticated approach. The tenured engineers of 2023 Nine faculty members, including at HST, have been granted tenure in six units across MIT’s School of Engineering. How the body’s cells work together in response to infection HST PhD student Constantine Tzouanas investigates how interactions between individual cells help determine whether pathogens will defeat their hosts — or vice versa. Study finds a surprising new role for a major immune regulator Researchers at MIT and Harvard, including an HST alum, showed that in addition to turning on genes involved in cell defense, the STING protein also acts as an ion channel, allowing it to control a wide variety of immune responses. Pagination First page « First Previous page Previous … Page 11 Page 12 Page 13 Current page 14 Page 15 Page 16 Page 17 … Next page Next Last page Last »
James J. Collins named a Citation Laureate He was named to a list of 23 world-class researchers from institutions in five countries whose work is deemed to be of Nobel class.
MIT researchers combine deep learning and physics to fix motion-corrupted MRI scans The challenge involves more than just a blurry JPEG. Fixing motion artifacts in medical imaging requires a more sophisticated approach.
The tenured engineers of 2023 Nine faculty members, including at HST, have been granted tenure in six units across MIT’s School of Engineering.
How the body’s cells work together in response to infection HST PhD student Constantine Tzouanas investigates how interactions between individual cells help determine whether pathogens will defeat their hosts — or vice versa.
Study finds a surprising new role for a major immune regulator Researchers at MIT and Harvard, including an HST alum, showed that in addition to turning on genes involved in cell defense, the STING protein also acts as an ion channel, allowing it to control a wide variety of immune responses.
