To create the ultrasound probe, the scientists used 3D printing, laser micromachining, and photolithography, in which light is used to create a pattern on a photosensitive material.

A wearable ultrasound device can provide 48 hours of continuous imaging of internal organs while patients go about their daily lives. The device – developed by a team headed up at Massachusetts ...

MIT engineers have developed a small ultrasound sticker that ... probe or wand over the skin. The probe sends sound waves through the body, which cause internal organs to vibrate slightly and ...

An ultrasound probe sends these waves through a layer of gooey gel into the human body, where they bounce off organs and other internal structures and then return to the transducer array.

Three In One Ultrasound Probe For 3-D Imaging Of Heart And Tissue ... During the past five years several tiny internal ultrasound-imaging probes have been developed that offer a significant ...

Existing ultrasound elastography probes measure shear waves ... The probe sends sound waves through the body, which cause internal organs to vibrate slightly and send waves out in return.

It helps to transmit the sound waves to the probe. The scan appears on a screen next to you. You might feel a little pressure as the sonographer presses the probe against your skin and moves it around ...

Engineers designed an adhesive patch that produces ultrasound images of the body. The stamp-sized device sticks to skin and can provide continuous ultrasound imaging of internal organs for 48 hours.

A transvaginal ultrasound is an internal scan of the female reproductive organs. It involves inserting a small ultrasound probe, called a transducer, into the vagina to produce incredibly detailed ...