Carnegie Mellon University

stefanie-sydlik

April 27, 2022

Regenerating Bones, Ending Lead Poisoning with Chemistry

By Elizabeth Speed

How does a rowing injury lead to a possible cure for lead poisoning? The answer lies with CMU associate professor of chemistry and biomedical engineering Stefanie Sydlik (MCS 2007). When her Olympic rowing dreams were crushed by injury, three new doors opened. She met her husband, began to compete in cycling and discovered a fresh investigative avenue for her academic pursuits.

“I was researching how I could fix my own shoulder and became intrigued with biomedicine: that's now my research passion,” she says.

The passion is paying off with recognition, as Stefanie has been named as an American Chemistry Society Division of Polymeric Materials: Science and Engineering Young Investigator and a member of the World Economic Forum’s Community of Young Scientists for her exciting work using chemistry to reprogram the healing process in our bodies.

Her interdisciplinary work focuses on the chemical bonds our bones make when growing or healing, with the goal of enabling bones to regenerate after injuries. Stefanie chemically transforms graphite to form a scaffold that guides bones’ regrowth, and chemistry that instructs the bones to bond and fill in where necessary. This approach allows the body to literally regenerate bone and could ultimately replace the use of titanium plates — resulting in stronger structural integrity, greater mobility and the ability to accommodate children’s growing bodies.

The chemistry also works in reverse. Using the same general principles, Stefanie’s process can remove another substance: lead. The process that releases healing signals in bone can be reversed to search out lead, bond with it and remove the materials from the body. Her startup company BioBind is working on this therapy. It has great promise for children, who often suffer the most adverse impacts from exposure to lead, with the most limited options for therapy.

“Treating childhood lead poisoning is not so much a medical problem as a public health problem,” she says. “It was really exciting to realize that as a chemist, I could have an impact on these huge, societal problems.”