40 Hz vibrations reduce Alzheimer’s pathology, symptoms in mouse models
Tactile stimulation improved motor performance, reduced phosphorylated tau, preserved neurons and synapses, and reduced DNA damage, a new study shows.
Tactile stimulation improved motor performance, reduced phosphorylated tau, preserved neurons and synapses, and reduced DNA damage, a new study shows.
A pandemic-fueled transformation of the MIT course MAS.S64 (How to Grow (Almost) Anything) leads to next steps in democratizing synthetic biology.
MIT Morningside Academy for Design’s inaugural fellows chart a new course.
Martin Luther King Jr. Visiting Professors and Scholars will enhance and enrich the MIT community through engagement with students and faculty.
Virtual conference gathered students, faculty, and industry partners to explore the future of microsystems and nanotechnology.
The honorees include four MIT graduate students in electrical engineering and computer science, economics, and media arts and sciences.
Tulle-like DefeXtiles can be 3D printed with no custom software or hardware.
Micro/nano processing course fabricates devices in MIT.nano’s facilities.
By making hydrophobic sections water-soluble, researchers hope to learn more about protein structures.
In a novel system developed by MIT researchers, underwater sonar signals cause vibrations that can be decoded by an airborne receiver.
Technique can capture a scene at multiple depths with one shutter click — no zoom lens needed.
Machine-learning system determines the fewest, smallest doses that could still shrink brain tumors.
Personalized machine-learning models capture subtle variations in facial expressions to better gauge how we feel.
Machine learning network offers personalized estimates of children’s behavior.
New technology could enable remote control of drug delivery, sensing, and other medical applications.