On a rectangular chip slightly smaller than a person’s finger, two scientists and an engineer are writing what they hope will be the blueprint for the future of drug testing.
The researchers are studying the behaviors of cells to learn more about how cells send signals to each other. How are cells affected by the flow of blood? And how can they be studied outside the body?
The problem that the group hopes to solve is a challenge that confronts many cancer patients: How can drugs be made to kill cancerous cells without harming healthy cells and tissue nearby?
The researchers represent three disciplines. Yaling Liu, assistant professor of mechanical engineering and mechanics, studies the interfacial phenomena that occur at the micro- and nanoscale of biological systems.
Linda Lowe-Krentz, professor of biological sciences, is a cell biologist who studies blood vessels and the changes that cells undergo in response to blood flow.
And Daniel Ou-Yang, professor of physics, has developed novel methods of using microscopy and lasers, including “optical tweezers,” to study the activities of cells at the nanoscale.
The researchers and their students are developing a method of testing cancer drugs on a chip etched with channels that mimic the branching capillaries of the human lung and are coated with human endothelial, or blood vessel, cells.
Read more at: Phys.org