Research at the intersection of mechanobiology, engineering mechanics, and health equity.
Our lab design and applies nano- and micro-engineered methodologies to answer mechanobiology questions, especially toward problems of health inequity.
We create and develop techniques to measure cellular force generation and understand its importance in health and disease.
We use microcontact printing to stamp a fluorescent pattern called ‘black dots’ onto a flexible substrate.
Cells seeded onto the black dots bind, spread, and contract, moving the pattern from its undeformed state. These images show platelets, which are blood cells involved in bleeding and thrombosis, on the black dots.