Measuring blood flow in the brain is critical for responding to a range of neurological problems, including stroke, traumatic ...
Non-invasive device worn on the forehead uses laser technology and an array of detectors, and could form the basis of methods for monitoring brain blood flow.
Measuring blood flow in the brain is critical for responding to a range of neurological problems, including stroke, traumatic brain injury (TBI) and vascular dementia.
A new study from SFU's School of Sustainable Energy Engineering (SEE) proposes an innovative standardization framework to ...
AquaStar Corp. issued a recall Oct. 17, stating that some shrimp products may have been exposed to "very low levels of cesium ...
Timberlane Middle School STEM students constructed Halloween-themed accessories for students attending Mercer Elementary ...
A team from the Faculty of Physics and the Center for Quantum Optical Technologies at the University of Warsaw has developed ...
AI PCs are more than just a performance upgrade. They’re reshaping how people approach and experience work. By giving ...
A groundbreaking eye implant has seen promising results in people who have lost their sight because of geographic atrophy.
A University of Glasgow chemist is set to advance her groundbreaking work in developing sustainable devices with the support ...
A new cottage industry of wearable sensors has popped up to address America's most ignored biomarker: sweat. Can perspiration ...
Connected TV is rapidly reshaping India’s viewing habits, prompting a rethink of traditional audience measurement systems to ...