Norwegian startup ClexBio is bioengineering human veins to implant inside a patient’s body. Together with CSEM, a Swiss R&D centre, the company has built a prototype bioreactor to grow the veins.

A new twist on two-photon polymerization has been used to deliver objects, including lasers and an elephant, directly into ...

Bioengineering has the power to improve global health by developing tools that function in resource-constrained contexts. This collection brings together articles discussing access-conscious and ...

When he was 10 years old, Joseph Connell was burned on 30% of his body. His leg was so severely damaged the wound went down to the bone, and doctors told him he would never walk again. Connell had 360 ...

Santa Clara's Bioengineering programs provide students with an enriching educational experience, empowering them to make significant contributions to the field. With a strong commitment to discovery ...

At an event dedicating the Omenn-Darling Bioengineering Institute, Princeton University emphasized its commitment to innovative research in the life sciences and engineering, informed by collaboration ...

Bioengineering is revolutionizing cancer research. This area of science integrates engineering and physical sciences with oncology to change how we understand and treat this complex disease.

India's IIT Hyderabad, in partnership with Germany's Institute for Lung Health, launched a first-of-its-kind Bioengineering ...

This article is the part of a series of student spotlights featuring students from a variety of academic departments at Stanford and the highlights and challenges of their academic journey. When ...

Bioengineering aims to improve targeted cancer therapies by enhancing drug delivery, boosting immune responses, and refining surgical techniques. The field is highly interdisciplinary, merging ...