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 ...

A group of researchers at the University of Tokyo led by Professor Takao Someya developed an ultra-thin biomedical device that securely stick to the human skin. It has a stretchable display that shows ...

DUBLIN--(BUSINESS WIRE)--Research and Markets (http://www.researchandmarkets.com/research/k233jq/global_biomedical) has announced the addition of the "Global ...

3D printing is used to create real-life 3D objects from a digital model, facilitating the realization of ideas and concepts with high accuracy. Various 3D printing technologies exist, including ...

Quantum computing has been touted as a revolutionary advance that uses our growing scientific understanding of the subatomic world to create a machine with powers far ...

Modern wearable sensors equipped with nanomaterials and nano-additives are more efficient, sensitive, and accurate than conventional healthcare sensing mechanisms. 1 The incorporation of ...

Proteus Biomedical announced today that it has received a patent for its ingestible biomedical sensor -- what the company has referred to as "intelligent medicine" in the past and what many have ...

This special Collection aims to showcase cutting-edge research and review articles that explore the integration of machine learning techniques in biomedical sensing, with a particular emphasis on ...

The revolution in personalized medicine is well underway – with wearable devices and DIY home testing, it’s easier than ever to track everything from heart rate, to glucose levels, to microbiome ...

Integrative actuators and sensors within a single active device offer compelling capabilities for developing robotics, prosthetic limbs, and minimally invasive surgical tools. But instrumenting these ...