Acoustoelastic imaging using ultrasound shear wave elastography
Acoustoelastic imaging using ultrasound shear wave elastography

Image source: Zhang et al., Science Advances 2023 (CC BY-NC 4.0)

News • Tissue tension measurement

New ultrasound method could lead to easier disease diagnosis

A new ultrasound method that can measure the level of tension in human tissue for the first time - a key indicator of disease - has been developed by researchers from the University of Sheffield.

The breakthrough, made by Dr Artur Gower from the University’s Department of Mechanical Engineering, together with researchers from Harvard, Tsinghua University, and the University of Galway, could be used to build new ultrasound machines that are able to better diagnose abnormal tissue, scarring, and cancer. In a new paper, published in the journal Science Advances, the researchers describe the new method and demonstrate how they used it to measure tension inside a muscle. 

Ultrasounds use sound waves to create images of organs inside the human body. However, the images produced by the current techniques used in healthcare aren’t usually enough to diagnose whether tissues are abnormal. To improve diagnosis, the researchers developed a way to measure forces such as tension by using an ultrasound machine. Tension is generated in all living tissue, so measuring it can indicate whether tissue is functioning properly or if it’s affected by disease. 

This technique is the first time that ultrasound can be used to measure forces inside tissue, and it could now be used to build new ultrasound machines capable of diagnosing abnormal tissue and disease earlier

Artur Gower

The researchers harnessed a technique from a rail project at the University of Sheffield, which uses sound waves to measure tension along railway lines. The technique, used both for rail and medical ultrasound, relies on a simple principle: the greater the tension, the faster sound waves propagate. Using this principle, the researchers developed a method that sends two sound waves in different directions. The tension is then related to the speed of the waves by using mathematical theories developed by the researchers. Previous ultrasound methods have struggled to show the difference between stiff tissue or tissue under tension. The developed technique is the first capable of measuring tension for any type of soft tissue, and without knowing anything about it. 

Dr Artur Gower, Lecturer in Dynamics at the University of Sheffield, said: “When you go to the hospital, a doctor might use an ultrasound device to create an image of an organ, such as your liver, or another part of your body, such as the gut, to help them explore what the cause of a problem might be. One of the limitations of ultrasounds used in healthcare now is that the image alone is not enough to diagnose whether any of your tissues are abnormal. 

“What we’ve done in our research is develop a new way of using ultrasound to measure the level of tension in tissue. This level of detail can tell us whether tissues are abnormal or if they are affected by scarring or disease. This technique is the first time that ultrasound can be used to measure forces inside tissue, and it could now be used to build new ultrasound machines capable of diagnosing abnormal tissue and disease earlier.” 


Source: University of Sheffield

13.03.2023

Related articles

Photo

News • Tissue oxygenation

Photoacoustic imaging for better diagnoses of ovarian cancer

Researchers and clinicians at Washington University in St. Louis found a way to improve diagnostic accuracy of potentially cancerous lesions in the ovaries and adnexal regions, or the fallopian tubes.

Photo

Article •

Dynamic Contrast Enhanced Ultrasonography (DCE-US)

Early functional evaluation of new treatments in oncology is of major importance. Overall survival rate is the best criterion for assessing treatment, but unfortunately it calls for lengthy follow-up…

Photo

News • Insights on bias avoidance

New breast imaging technique to improve visibility across skin tones

A new imaging technique reduces skin tone bias in breast cancer detection, improving visibility across diverse skin tones.

Related products

Subscribe to Newsletter