Sandia National Laboratories and research partner Know Biological have developed a miniaturized sensor system that can detect the specific gases released from the skin of people with epilepsy before a seizure.
Tag: Wearable Sensors
Hybrid Decoders for Marked Point Process Observations and External Influences
Wearable monitoring is likely to play a key role in the future of healthcare. In many cases, wearable devices may monitor our physiological signals that can indicate mental states, such as emotions. The lab of Rose Faghih has been developing a system called MINDWATCH, algorithms and methods for wearable sensors that collect information from electrical signals in the skin to make inferences about mental activity.
Wearable, Printable, Shapeable Sensors Detect Pathogens and Toxins in the Environment
Researchers at Tufts University have created a biopolymer sensor that can be printed on or embedded in wide range of materials, including gloves, masks, and everyday clothing. The sensor lights up when exposed to specific pathogens, toxins, proteins, or chemicals.
New skin patch brings us closer to wearable, all-in-one health monitor
Engineers at the University of California San Diego have developed a soft, stretchy skin patch that can be worn on the neck to continuously track blood pressure and heart rate while measuring the wearer’s levels of glucose as well as lactate, alcohol or caffeine. This one patch performs as well as commercial monitoring devices such as a blood pressure cuff, blood lactate meter, glucometer and breathalyzer.
New wearable sensor tracks Vitamin C levels in sweat
A team at the University of California San Diego has developed a wearable, non invasive Vitamin C sensor that could provide a new, highly personalized option for users to track their daily nutritional intake and dietary adherence. The study was published in the May 18, 2020 issue of ACS Sensors.
Toward a low-cost, low-power wearable sensor for temperature and respiration
Engineers at the University of California San Diego are developing low-cost, low-power wearable sensors that can measure temperature and respiration–key vital signs used to monitor COVID-19. The devices would transmit data wirelessly to a smartphone, and could be used to monitor patients for viral infections that affect temperature and respiration in real time. The research team plans to develop a device and a manufacturing process in just 12 months.