3 Questions: Lee Gehrke on a new paper diagnostic for Ebola
Simple device now in development could speed diagnosis and improve disease tracking.
Martial arts and medical outreach
Senior Christina Lalani applies lessons she learned from karate to global health disparities.
A new way to diagnose malaria
Using magnetic fields, technique can detect parasite’s waste products in infected blood cells.
Model of viral lifecycle could help in finding a cure for hepatitis B
New technique sustains virus in liver cells, allowing study of immune response and drug treatments.
For the good of the colony
Research shows the success of a bacterial community depends on its shape.
MIT Center for Integrative Synthetic Biology receives five-year NIH grant
Five-year grant will support research on cancer therapy, artificial tissue homeostasis, and infectious diseases.
Separating the good from the bad in bacteria
New microfluidic technique quickly distinguishes bacteria within the same strain; could improve monitoring of cystic fibrosis and other diseases.
New view of dengue fever
Mice with human immune cells help researchers discover how the mosquito-borne virus depletes blood platelets.
New approach to global health challenges
MIT’s Institute for Medical Engineering and Science brings many tools to the quest for new disease treatments and diagnostic devices.
A computer scientist's approach to medicine
Stephanie Seneff is using the novel natural language processing techniques she developed to better understand how drugs and environmental toxins impact human health.
Study shows projected climate change in West Africa not likely to worsen malaria situation
MIT study combines new model of malaria transmission with global forecasts for temperature and rainfall.
DNA damage may cause ALS
New study finds link between neurons’ inability to repair DNA and neurodegeneration.
Detecting early-stage malarial infection
New prototype device recognizes electrical properties of infected cells as signatures of disease.
Controlling contagion by restricting mobility
Study shows that in the face of an epidemic, even moderate government-mandated travel restrictions would slow contagion.
New way to target an old foe: malaria
Engineered liver tissue developed at MIT could help scientists test new drugs and vaccines.