MEMS are helping to advance biomedical devices by leaps and bounds, but technical and business challenges remain. Charles Chung, Ph.D. Shown are different pressure sensor designs—each tailored to ...

Researchers from MIT have developed a 3D-printable tissue adhesive that demonstrates superior tissue adhesion, rapid sealing capabilities across various surgical scenarios and a unique blood-repelling ...

Doctors have made an astounding breakthrough. According to a new paper published in Science, a group of doctors has managed to create a special ink capable of 3D printing within the human body. The ...

As quantum computers advance, they are expected to be able to break tried-and-true security schemes that currently keep most sensitive data secure from attackers. Scientists and policymakers are ...

Artificial intelligence, synthetic biology and collaboration are the building blocks that could help biomedical engineers crack the next big discovery in addressing complex health issues. David Umulis ...

The Cornell University Biomedical Device team is developing a novel product intended to treat patients undergoing opioid withdrawal for its Spring 2024 project. The device is an addition to the team’s ...

Biomedical devices like pacemakers or blood pressure sensors that are implanted into the human body need to be fabricated in such a way that they conform and adhere to the body – and then dissolve at ...

Galvanic cells, long known for powering batteries, are now inspiring innovations in biomedical devices. By harnessing spontaneous redox reactions, researchers are creating self-powered implants and ...