Research advances technology of AI assistance for anesthesiologists
A new deep-learning algorithm trained to optimize doses of propofol to maintain unconsciousness during general anesthesia could augment patient monitoring.
A new deep-learning algorithm trained to optimize doses of propofol to maintain unconsciousness during general anesthesia could augment patient monitoring.
Single-cell gene expression analyses of human cerebrovascular cells can help reveal new drug targets for Huntington’s disease.
The act of holding information in mind is accompanied by coordination of rotating brain waves in the prefrontal cortex, a phenomenon that may convey specific advantages, a new study suggests.
Eight postdocs and research scientists within the School of Science honored for contributions to the Institute.
Extra chromosome alters chromosomal conformation and DNA accessibility in neural progenitor cells; study establishes senescence as a potentially targetable mechanism for future treatment.
Infection during pregnancy with elevated levels of the cytokine IL-17a may yield microbiome alterations that prime offspring for aberrant immune responses, mouse study suggests.
Tomosyn’s tight regulation of neurotransmitter release distinguishes functions of two neuron classes at the fly neuromuscular junction.
By integrating multiple sensory inputs, a loop of mutual inhibition among a small set of neurons allows worms to switch between long-lasting behavioral states.
Nine MIT researchers selected as finalists for 2021 prize supported by Northpond Ventures; grand prize winner to receive $250K toward commercializing her human health-related invention.
The findings may help explain why some people who lead enriching lives are less prone to Alzheimer’s and age-related dementia.
Those selected for these positions receive additional support to pursue their research and develop their careers.
While the brain acquires resistance to continuous treatment with mGluR5 inhibitor drugs, lasting effects may still arise if dosing occurs intermittently and during a developmental-critical period.
Awards support high-risk, high-reward biomedical and behavioral research.
A study of mice watching movies shows our brain cells rely on a circuit of inhibitory neurons to help ensure that the same images are represented consistently.
Neuroscientists at MIT and Massachusetts General Hospital develop a statistical framework that describes brain-state changes patients experience under ketamine-induced anesthesia.