Our research in thrombosis modeling is funded by the NSF CAREER award!

Congratulations to Dr. Tan!

This Faculty Early Career Development (CAREER) award will fund research that intends to advance our knowledge in modeling and predicting thrombus (or clot) formation and rupture in patient’s blood vessels. Clots, while aiding in stopping bleeding, can also obstruct blood flow in vessels, leading to cardiovascular diseases like hypertension, heart attack, and stroke. In fact, cardiovascular disease is the leading cause of death worldwide. Thus, understanding clot formation and its response in the live blood environment is crucial for predicting and treating clot growth. However, predicting clot growth and rupture is challenging, as blood flow impacts the formation and composition of a clot, which in-return determines the strength of the clot and its response to flow. On the other hand, the growth and composition of the clot changes the flow as well. This award will support research striving to develop multiscale modeling tools that use powerful computers and artificial intelligence to better predict clot growth and its response to pulsatile flows, collision from blood cells, and vessel dilation. Experimental validations will be performed using 3D printed silicon based vascular network replica. In addition, the project will integrate research and education by developing curriculum, employing innovative teaching tools like interactive notebooks to train the next generation or engineers and scientists, with a focus on underrepresented minorities, in computational thinking, high-performance computing, and machine learning. Outreach activities involve participation in STEM festivals and organizing engineering summer camps to inspire K12 students to enter the STEM field.

See more on the BingUNews.