MIT engineers have designed a two-component system that can be injected into the body and help form blood clots at the sites of internal injury.
MIT engineers have designed a two-component system that can be injected into the body and help form blood clots at the sites of internal injury. These materials, which mimic the way that the body naturally forms clots, could offer a way to keep people with severe internal injuries alive until they can reach a hospital.
In a mouse model of internal injury, the researchers showed that these components — a nanoparticle and a polymer — performed significantly better than hemostatic nanoparticles that were developed earlier.
“What was especially remarkable about these results was the level of recovery from severe injury we saw in the animal studies. By introducing two complementary systems in sequence it is possible to get a much stronger clot,” says Paula Hammond, an MIT Institute Professor, the head of MIT’s Department of Chemical Engineering, a member of the Koch Institute for Integrative Cancer Research, and one of the senior authors of a paper on the study.
Read more at Massachusetts Institute of Technology
Image: MIT engineers have designed synthetic nanoparticles that can be injected into the body and help form blood clots at the sites of internal injury. Credit: Christine Daniloff/MIT