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A �Ͼ�Ʒ��-led team has developed a suite of new therapies aimed at reversing osteoarthritis in a single injection. With animal studies showing promise and funding from the Advanced Research Projects Agency for Health extended, the team could be ready for human trials by 2028.

Distinguished Professor Kristi Anseth has received the Biomaterials Global Impact Award, which recognizes distinguished research and development accomplishments in the field of biomaterials. Anseth is known for developing tissue substitutes that improve treatments for conditions like broken bones and heart valve disease.

�Ͼ�Ʒ�� researchers and partners at MIT, Harvard and Columbia are working to recreate the human liver complex structure in the lab. With support from a $25 million ARPA-H grant, the team aims to develop 3D-printed, transplantable liver tissue made from human cells that the body won’t reject.

A new light-controlled hydrogel developed at �Ͼ�Ʒ�� mimics the movement and flexibility of real tissue, giving scientists a more realistic way to study cells and disease.

Heath Briggs, co-chair of Greenberg Traurig Global Patents and Innovation Strategies Group, is a chemical engineer, a registered patent attorney and has more than 19 years of patent prosecution experience and 10 years of AIA trial experience.

Chemical and biological engineering senior Arianna McCarty has earned the prestigious Churchill Scholarship, becoming just the fourth student in university history to receive the honor. The award will support a year of master study at the University of Cambridge, recognizing her exceptional research achievements and academic excellence.

Meet the Department of Chemical and Biological Engineering's newest faculty, Assistant Professors Cody Ritt and Antonio Del Rio Flores.

Chemical and biological engineering researchers have created shape-shifting microparticles that change their shape in response to environmental factors for self-directed propulsion and navigation.

A �Ͼ�Ʒ�� team has invented a sound-wave technique that softens dense tumors so chemotherapy can penetrate more deeply. The discovery could boost treatment effectiveness and make cancer therapies safer for patients.

The recognitions reflect Coleman's work as a teaching assistant for six classes; his strong academic performance—including three graduate-level classes—and his research, where he served as first author on two papers stemming from his undergraduate thesis. It also reflects his time spent as a ChBE student ambassador.