Aging Brain Initiative symposium showcases “cutting-edge” research across MIT Seed projects, posters represent a wide range of labs working on technologies, therapeutic strategies, and fundamental research to advance understanding of age-related neurodegenerative disease. How cell identity is preserved when cells divide MIT study suggests 3D folding of the genome is key to cells’ ability to store and pass on “memories” of which genes they should express. HST 2023 Fall Dinner The Harvard-MIT Health Sciences and Technology (HST) Fall Dinner took place on Nov. 14 at the MIT Samberg Conference Center. Podcast: Curiosity Unbounded, Episode 6 — Healing the ailing heart Ellen Roche's research revolves around developing new devices and therapeutic strategies for repairing the human heart and other tissues. Anesthesia technology precisely controls unconsciousness in animal tests An advanced closed-loop anesthesia delivery system that monitors brain state to tailor propofol dose and achieve exactly the desired level of unconsciousness could reduce post-op side effects. Pagination First page « First Previous page Previous … Page 8 Page 9 Page 10 Current page 11 Page 12 Page 13 Page 14 … Next page Next Last page Last »
Aging Brain Initiative symposium showcases “cutting-edge” research across MIT Seed projects, posters represent a wide range of labs working on technologies, therapeutic strategies, and fundamental research to advance understanding of age-related neurodegenerative disease.
How cell identity is preserved when cells divide MIT study suggests 3D folding of the genome is key to cells’ ability to store and pass on “memories” of which genes they should express.
HST 2023 Fall Dinner The Harvard-MIT Health Sciences and Technology (HST) Fall Dinner took place on Nov. 14 at the MIT Samberg Conference Center.
Podcast: Curiosity Unbounded, Episode 6 — Healing the ailing heart Ellen Roche's research revolves around developing new devices and therapeutic strategies for repairing the human heart and other tissues.
Anesthesia technology precisely controls unconsciousness in animal tests An advanced closed-loop anesthesia delivery system that monitors brain state to tailor propofol dose and achieve exactly the desired level of unconsciousness could reduce post-op side effects.