Newswise — WASHINGTON, D C., June 26, 2017 -- Ultrasound -- sound with frequencies higher than those audible to humans -- is commonly used in diagnostic imaging of the body's soft tissues, including muscles, joints, tendons and internal organs. A technology called high-intensity focused ultrasound (HIFU) is also being explored for therapeutic uses including the removal of uterine fibroids and the destruction of tumors.

The method has limitations, however, in large part because bones in the body reflect, refract, distort and absorb the waves. Although most medical applications of ultrasound are able to work around bony structures, two parts of the body are particularly challenging: the liver (because it is mostly confined within the rib cage) and the brain (housed within the skull).

A suite of noninvasive, adaptive focusing techniques -- that allow ultrasonic beams to be focused through the rib cage and skull -- will be described during Acoustics ’17 Boston, the third joint meeting of the Acoustical Society of America and the European Acoustics Association being held June 25-29, in Boston, Massachusetts.

Jean-François Aubry, director of research at CNRS (the National Center for Scientific Research in France) and an invited associate professor at the University of Virginia will explain how the technology behind HIFU is similar to how an optical lens (like a magnifying glass) focuses light. Here, however, an acoustic lens is used to focus multiple beams of ultrasound waves on the area of interest -- say, a liver tumor. The beams are generated by piezoelectric transducers, or "elements" -- devices that convert an electric current to mechanical stress.

"Tumor ablation [destruction] can be achieved by increasing the tissue temperature in targeted regions, until thermal necrosis is obtained -- typically by warming the tissues up to 60 degrees Celsius over a period of 10 seconds," Aubry said. A bone, however, has an absorption coefficient that is 10 times higher than that of soft tissues -- that is, bone absorbs sound waves 10 times more effectively than soft tissues -- and this could lead to overheating of the ribs and even severe burns on the overlying skin.

To prevent this, Aubry and colleagues have developed a noninvasive "time-reversal" technique, called the DORT method, which focuses ultrasound waves through the ribs by taking advantage of the imaging capabilities of a multi-element array.

First, a sound impulse is emitted from each element in the array, and the corresponding backscattered echoes from the ribs are recorded. By analyzing the backscatter from multiple elements, it is possible to calculate the shape of an ultrasound beam that will sonicate in between the ribs, completely avoiding the bone.

Ultrasonography in the brain is complicated because the bone of the skull, in addition to heating up when an ultrasound beam is applied, distorts that beam, preventing it from being properly focused on the targeted tissue. One solution is the use of multi-element arrays in conjunction with computed tomography (CT) and magnetic resonance imaging (MR). CT-based simulations allow for an estimation of the phase shifts induced by the skull and the arrays generate beams that correct for those aberrations. MR is used to guide and monitor the treatment. As Aubry will describe in his talk, arrays with 1024 elements are now being used for the treatment of essential tremor, Parkinsonian tremors and brain tumors. 

Although adding more and more elements to these probes can improve the focusing of the signal, a greater number of elements also means greater cost. To get around this, Aubry and his colleagues have developed and patented a lens-based transcranial focusing device that uses only one piezoelectric transducer element, covered with a 3-D silicone acoustic lens of variable thickness. This lens-based element, he said, is equivalent to an 11,000-element transducer in terms of its phase-shaping capabilities. Although it is not yet in clinical use, the single-element system could be used for low-intensity applications such as neuromodulation (the modulation of neuronal activity) and to punch localized and reversible openings in the blood-brain barrier; with future modifications, Aubry said, the system could be used to induce tumor necrosis.


Session 2aBAa6, "Focusing ultrasound through bones: past, current and future transcostal and transskull strategies" by Jean-Francois Aubry, is at 11:00-11:20 a.m. EDT, Monday, June 26, 2017 in Room 312.

-----------------------MORE MEETING INFORMATION-----------------------

Acoustics ’17 Boston, the third joint meeting of the Acoustical Society of America and the European Acoustics Association.

The meeting is being held June 25-29, 2017 at the John B. Hynes Veterans Memorial Convention Center in Boston, Massachusetts. 


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In the coming weeks, ASA’s World Wide Press Room will be updated with additional tips on dozens of newsworthy stories and with lay-language papers, which are 300-800 word summaries of presentations written by scientists for a general audience and accompanied by photos, audio, and video. You can visit the site during the meeting at:


We will grant free registration to credentialed journalists and professional freelance journalists. If you are a reporter and would like to attend, contact Julia Majors ([email protected]) at AIP Media, 301-209-3090 who can also help with setting up interviews and obtaining images, sound clips, or background information. For urgent requests, contact [email protected]


A press briefing featuring will be webcast live from the conference on Monday, June 26, 2017 in the afternoon and Tuesday, June 27, 2017 in the morning in room 111 of the John B. Hynes Veterans Memorial Convention Center in Boston, Massachusetts.
Register at to watch the live webcast. The schedule will be posted here as soon as it is available. 


The Acoustical Society of America (ASA) is the premier international scientific society in acoustics devoted to the science and technology of sound. Its 7,000 members worldwide represent a broad spectrum of the study of acoustics. ASA publications include The Journal of the Acoustical Society of America (the world's leading journal on acoustics), Acoustics Today magazine, books, and standards on acoustics. The society also holds two major scientific meetings each year. For more information about ASA, visit our website at


The European Acoustics Association (EAA) is a non-profit entity established in 1992 that includes in its membership societies predominantly in European countries interested in to promote development and progress of acoustics in its different aspects, its technologies and applications. EAA gathers 33 societies of acoustics and serves public citizens and more than 9000 individual members all over Europe with yearly events as well as scientific conferences and publications such as Acta Acustica united with Acustica and Acoustics in Practice. The European Acoustics Association (EAA) is an Affiliate Member of the International Commission for Acoustics (ICA) and of Initiative of Science in Europe ISE: