News | December 15, 2014

Technique can be used for ultrasound imaging, as well as therapeutically

ultrasound

Researchers from North Carolina State University have developed a technique that allows ultrasound to penetrate bone or metal, using customized structures that offset the distortion usually caused by these so-called \"aberrating layers.\"


Researchers from North Carolina State University have developed a technique that allows ultrasound to penetrate bone or metal, using customized structures that offset the distortion usually caused by these so-called "aberrating layers."

"We've designed complementary metamaterials that will make it easier for medical professionals to use ultrasound for diagnostic or therapeutic applications, such as monitoring blood flow in the brain or to treat brain tumors," said Tarry Chen Shen, a Ph.D. student at NC State and lead author of a paper on the work. "This has been difficult in the past because the skull distorts the ultrasound's acoustic field."

"These metamaterials could also be used in industrial settings," said Yun Jing, Ph.D., an assistant professor of mechanical and aerospace engineering at NC State and senior author of the paper. "For example, it would allow you to use ultrasound to detect cracks in airplane wings under the wing's metal 'skin.'"

Ultrasound imaging works by emitting high frequency acoustic waves. When those waves bounce off an object, they return to the ultrasound equipment, which translates the waves into an image. But some materials, such as bone or metal, have physical characteristics that block or distort ultrasound's acoustic waves. These materials are called aberrating layers. The researchers addressed this problem by designing customized metamaterial structures that take into account the acoustic properties of the aberrating layer and offsetting them. The metamaterial structure uses a series of membranes and small tubes to achieve the desired acoustic characteristics.

The researchers tested the technique using computer simulations and are in the process of developing and testing a physical prototype.

In simulations, only 28 percent of ultrasound wave energy makes it past an aberrating layer of bone when the metamaterial structure is not in place. But with the metamaterial structure, the simulation shows that 88 percent of ultrasound wave energy passes through the aberrating layer. "In effect, it's as if the aberrating layer isn't even there," Jing said.

 


Related Content

News | Radiology Business

July 19, 2024 — GE HealthCare announced it has entered into an agreement to acquire Intelligent Ultrasound Group PLC’s ...

Time July 19, 2024
arrow
Feature | Women's Health | By Jordan Bazinsky

Investing in women’s health should not merely be a metric on the equity dashboard — it should drive policy and tactical ...

Time July 08, 2024
arrow
News | Ultrasound Women's Health

June 18, 2024 — The International Society of Ultrasound in Obstetrics and Gynecology (ISUOG) has announced details of ...

Time June 18, 2024
arrow
News | Radiology Business

May 29, 2024 — Strategic Radiology added a third California member to the nation’s leading coalition of independent ...

Time May 29, 2024
arrow
News | Point-of-Care Ultrasound (POCUS)

May 20, 2024 — Exo (pronounced “echo”), a medical imaging software and devices company, announced the release of Exo ...

Time May 20, 2024
arrow
News | Radiology Imaging

May 13, 2024 — National Basketball Association (NBA), the National Basketball Players Association (NBPA), and the Next ...

Time May 13, 2024
arrow
News | Contrast Media

April 24, 2024 — The International Contrast Ultrasound Society (ICUS) and Northwest Imaging Forums (NWIF) announced an ...

Time April 24, 2024
arrow
News | Magnetic Resonance Imaging (MRI)

April 8, 2024 — Magnetic resonance-guided focused ultrasound (MRgFUS) is a non-invasive technique for neuroregulation ...

Time April 08, 2024
arrow
News | Radiology Business

April 4, 2024 — FUJIFILM Healthcare Americas Corporation, a leading provider of diagnostic and enterprise imaging ...

Time April 04, 2024
arrow
News | Radiation Oncology

April 2, 2024 — In a 10-center study, microwave ablation offered progression free survival rates and fewer complications ...

Time April 02, 2024
arrow
Subscribe Now