Researchers have tested a sensor for measuring hydrogen peroxide concentrations near cell membranes. The sensor has the potential to become a tool for new cancer therapies.
Search for: biosensors
Scientists have developed a soft and nonirritating microfluidic sensor for the real-time measurement of lactate concentration in sweat.
Scientists report that they have developed conductive inks that allows users to "write" circuits almost anywhere — even on human skin.
Scientists have designed a hydrogel membrane that may be used to house optical glucose sensing materials toward building a biosensor for monitoring sugar levels in diabetics.
Scientists have developed and tested a wearable biofuel cell array that generates electric power from the lactate in the wearer's sweat, opening doors to electronic health monitoring powered by bodily fluids.
Researchers have designed a cellular device capable of detecting and processing biological signals outside the laboratory.
Researchers have developed a unique inkjet printing method for fabricating tiny biocompatible polymer microdisk lasers for biosensing applications.
Scientists have created a new way to detect the proteins that make up the pandemic coronavirus, as well as antibodies against it.
Successful precision cancer diagnosis through an AI analysis of multiple factors of prostate cancer. Potential application of the precise diagnoses of other cancers by utilizing a urine test.
NIH BRAIN Initiative scientists used machine learning to redesign a bacterial ‘Venus flytrap’ protein that can monitor brain serotonin levels in real time.
Researchers have developed a wireless sensor that monitors the health of the baby's brain in a simple, inexpensive and comfortable way for the child.
The supplier sector will showcase its expertise and innovative high-tech solutions for the medical technology industry.
Researchers have designed a wearable device that monitors sweat for biomarkers that could signal flare-ups of inflammatory bowel disease (IBD).
Scientists have developed an experimental diagnostic test for COVID-19 that can visually detect the presence of the virus in 10 minutes.
Penn State engineers say computational power is key to technology for smart bandages, health tattoos and artificial organs.
Researchers describe a way to increase the sensitivity of biological detectors to the point where they can be used in mobile and wearable devices.
Rutgers University have devised a way to integrate microneedles with backward facing barbs, so that microneedle arrays can stay in place as long as needed.
Researchers describe a mass-producible wearable sensor that can monitor levels of metabolites and nutrients in a person's blood by analyzing their sweat.
Scientists have successfully used microneedle biosensors to accurately detect changes in antibiotic levels in the body, for the first time.
The first demonstration of a fully print-in-place electronics technique is gentle enough to work on surfaces as delicate as human skin and paper.
Researchers have developed an organ-on-an-electronic-chip platform, which uses bioelectrical sensors to measure the electrophysiology of the heart cells in three dimensions.
Researchers have created a wearable wrist device for people with autism that monitors physiological indicators such as heart rate, skin surface temperature, and perspiration of stress.
The project “BioSensing” from Fraunhofer ISC aims to overcome the limits of modern biosensors with the help of quantum technology.
Engineers have created biosensor technology with a wireless connection to smartphones that will enable a new wave of personal health.
By drawing in a bit of sweat, a patch developed in the lab of Alberto Salleo can reveal how much cortisol a person is producing. Cortisol is known as the stress hormone but is involved in many important physiological functions.
A drinking solution containing millions of tiny electronic sensors disguised as bacteria could helppatients in tracking their illness.