Sensing the body at all scales
Applications and challenges of sensing technology have been accelerated by Covid-19.
Applications and challenges of sensing technology have been accelerated by Covid-19.
Diagnosing liver damage earlier could help to prevent liver failure in many patients.
The MIT senior will pursue postgraduate studies in global health in Ireland.
Will focus on responding to disasters and humanitarian crises, defending against biothreats, addressing climate change, and improving human health and performance.
M-CELS are purpose-driven living systems with multiple interacting living components.
MIT researchers identify a molecule that could target advanced prostate cancer as well as a variety of other cancers.
Study suggests mechanical properties of spike proteins can predict infectivity and lethality of different coronaviruses.
Device could provide pressurized steam to run autoclaves without the need for electricity in off-grid areas.
Gelatin-based microcarriers offer higher yield and scalability compared to existing commercial microcarriers.
During her time at MIT, senior Ayesha Ng’s interests have expanded from cellular biology to the social systems that shape public health.
Machine learning model predicts probability that a particular urinary tract infection can be treated by specific antibiotics.
Results might provide a convenient screening tool for people who may not suspect they are infected.
MIT conference illustrates technologies developed in response to the pandemic and new opportunities for AI solutions for clinical management.
Immuneering uses bioinformatics to develop new medicines while also helping large pharmaceutical companies improve their treatments.
Computational method for screening drug compounds can help predict which ones will work best against tuberculosis or other diseases.