The assessment of burn injuries has evolved considerably from traditional clinical evaluation, which is often limited by subjective interpretation and variable accuracy. Today, a range of advanced ...

The leading areas of research on POCUS have been cardiothoracic ultrasonography and ultrasound-guided procedures. Most of the studies have been published in critical care medicine and emergency ...

Accurate determination of burn depth is essential for guiding clinical decision making, optimising patient outcomes and limiting long-term scarring. Traditional visual inspection and palpation are ...

The Army is collaborating with two Florida universities on a $1.3 million research project using artificial intelligence and ultrasound to evaluate combat-related burn injuries as the service seeks to ...

Researchers have developed a neural network model that uses terahertz time-domain spectroscopy (THz-TDS) data for non-invasive burn assessment. They combined the new approach with a handheld imaging ...

An important component to a more successful treatment course for burns is correctly assessing them, and current methods are not accurate enough. A team of Stony Brook University researchers believe ...