Sound waves levitate cells to detect stiffness changes that could signal disease

November 04, 2015

WASHINGTON, D.C., November 4 - Utah Valley University physicists are literally applying rocket science to the field of medical diagnostics. With a few key changes, the researchers used a noninvasive ultrasonic technique originally developed to detect microscopic flaws in solid fuel rockets, such as space shuttle boosters, to successfully detect cell stiffness changes associated with certain cancers and other diseases.

Brian Patchett, a research assistant and instructor within the Department of Physics at Utah Valley University, will describe the group's method, which uses sound waves to manipulate and probe cells, during the Acoustical Society of America's Fall 2015 Meeting, held Nov. 2-6, in Jacksonville, Fla.

The method combines a low-frequency ultrasonic wave to levitate the cells and confine them to a single layer within a fluid and a high-frequency ultrasonic wave to measure the cell's stiffness.

"An acoustic wave is a pressure wave so it travels as a wave of high and low pressure. By trapping a sound wave between a transducer -- such as a speaker -- and a reflective surface, we can create a 'standing wave' in the space between," explained Patchett. "This standing wave has stationary layers of high and low pressure, a.k.a. 'anti-nodes,' and areas, 'the nodes' where the pressure remains the same."

This standing wave allowed the group to acoustically levitate the cells and isolate them in manner similar to their natural state -- as they would be within human tissue or the bloodstream. Previous work in this realm relied on "growing the cell cultures in a Petri dish, which tends to deform the structure, as well as create all sorts of interference," Patchett said.

The significance of the group's work is that it focuses on an unexplored method of measuring the properties of cells and how they change during the process of cancer and disease development. "The stiffness of the cell is the primary change detected with our high-frequency ultrasound; it reveals detailed information about the internal structure of the cell and how it changes in certain diseases," Patchett said.

The group's method can also help distinguish between different types of cancer -- such as aggressive breast cancer vs. less aggressive forms. "By isolating the cells in a monolayer of fluid via acoustic levitation, we're providing a better method for the detection of cell stiffness," Patchett said. "This method can be used to explore the aspect of cells that changes during Alzheimer's disease, the metastasis of cancer, or during the onset of autoimmune responses to better understand these conditions and provide insight into possible treatment methods."

One of the group's key findings is that "by manipulating the shape of the wave that we use for levitation in specific ways, we're able to create more precise, sharply defined layers," Patchett said. "And, borrowing from previous cell culture work done by our group, our high-frequency ultrasound method detects changes within the stiffness of cells with high accuracy. By isolating the cells in a levitated monolayer, we hope to see these changes more clearly so that we can gain a better understanding of what's happening within the cell and why."

What kinds of applications might this method find? "It's a really fantastic research method for exploring autoimmune disorders," pointed out Timothy Doyle, lead scientist on the project and an assistant professor of physics at Utah Valley University.

As far as other applications, the group's method may find use in clinics, hospitals, and surgical centers as a way to immediately detect and characterize cancer or other diseases.

"Our method identifies aggressive types of breast cancer, for example, while in the operating room," Patchett noted. "Faster than current pathology methods, it will enable doctors to ensure speedier assessments and more effective treatment plans for patients -- personalized to their specific needs, which, in turn, will end up being more cost effective in the long term."

In the near future, the group plans to apply their method to a wide range of biological materials, including white blood cells undergoing activation, which is part of the immune response to an illness.

"We're collaborating with the Huntsman Cancer Institute -- part of the University of Utah healthcare system -- to explore various types of breast tissues under levitation to refine our pathology detection methods," Patchett said. "Our goal is to provide potentially life-saving, personalized medical treatments based on our ability to quickly and effectively detect cancers and diseases in patients."

Presentation #3pBA5, "Acoustic levitation device for probing biological cells with high-frequency ultrasound" by Brian Patchett, will be take place on Wednesday, Nov. 4, 2015, at 2:00 p.m. in Clearwater. The abstract can be found by searching for the presentation number here: https://asa2015fall.abstractcentral.com/planner.jsp.
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ABOUT THE MEETING

The 170th Meeting of the Acoustical Society of America (ASA) will be held Nov. 2-6, 2015, at the Hyatt Regency Jacksonville Riverfront Hotel. It will feature more than 700 presentations on sound and its applications in physics, engineering, music, architecture and medicine. Reporters are invited to cover the meeting remotely or attend in person for free.

PRESS REGISTRATION

We will grant free registration to credentialed journalists and professional freelance journalists. If you are a reporter and would like to attend, contact John Arnst (jarnst@aip.org, 301-209-3096) who can also help with setting up interviews and obtaining images, sound clips, or background information.

USEFUL LINKS

Main meeting website: http://acousticalsociety.org/content/fall-2015-meeting

Itinerary planner and technical program: https://asa2015fall.abstractcentral.com/planner.jsp

Hotel site: https://aws.passkey.com/g/20066992

WORLD WIDE PRESS ROOM

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 300-1200 word summaries of presentations written by scientists for a general audience and accompanied by photos, audio, and video. You can visit the site, beginning in late October, at http://acoustics.org/current-meeting.

LIVE MEDIA WEBCAST

A press briefing featuring a selection of newsworthy research will be webcast live from the conference on Tuesday, Nov. 3. Topics and time of webcast to be announced. To register, visit http://www.aipwebcasting.com.

ABOUT THE ACOUSTICAL SOCIETY OF AMERICA

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 http://www.acousticalsociety.org.

Acoustical Society of America

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