A device that can perform 3D ultrasound imaging with just one large piezoelectric ultrasound transmitter and receiver has been developed by researchers in the Netherlands. Most ultrasound imagers use ...

Picture this: a painless, radiation-free scan that can look inside your body in real time. From monitoring pregnancies to detecting heart problems, ultrasound radiology quietly powers millions of ...

RUS-PAT, developed in collaboration by USC and Caltech, could transform medical imaging through noninvasive, cost-effective ...

Continuous imaging: The stamp-sized device sticks to skin and can provide continuous ultrasound imaging of the heart, lungs and other internal organs. (Courtesy: Felice Frankel) A wearable ultrasound ...

In a proof-of-concept study funded by the National Institutes of Health, researchers from the Keck School of Medicine of USC and the California Institute of Technology (Caltech) have shown that an ...

Scientists have developed a quadruple fusion optical and ultrasound imaging system using a transparent ultrasound transducer. A quadruple fusion optical and ultrasound imaging system has been ...

The use of sound waves for non-invasively visualizing a fetus in the womb, via ultrasound imaging, is widely recognized. By emitting high-frequency sound waves into the body and converting their echo ...

Medical ultrasound imaging can be used to visualize internal organs without puncturing the skin or introducing radiation as some other imaging systems like endoscope, computed tomography (CT), or ...

Piezoelectric nanoparticles deployed inside immune cells and stimulated remotely by ultrasound can trigger the body's disease ...

Alternatively, data from all transducers can be used while limiting the focal depth, allowing more transmit-receive pulses to ...