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New form of ultrasound Unlock Secrets of the Blood

Healthy red blood cells are shaped a lot like lifesavers, just with more of a dimple than a hole in the middle. But red blood cells that are sick or damaged often change shape, becoming bloated when infected by the parasite that causes malaria, for example.

A new imaging approach called photoacoustics may one day help that dream become a reality. The procedure, which harnesses the power of light and sound, is akin to laser-induced ultrasound. A team of investigators at Ryerson University in Toronto used high-frequency sound waves to create new, detailed images of red blood cells, bringing science one step closer to that future. The findings are published in Biophysical Journal today.

With photoacoustics, a drop of blood is placed under a special kind of microscope that picks up sounds produced by the cells themselves. Researchers then shoot a very focused laser beam at the samples. As the blood cells absorb energy from the laser pulse, they release some of it in another form—sound waves. Because blood’s composition allows it to absorb light in different ways at varying wavelengths scientists can work out various details about the shape of the cell using photoacoustics. “Think of it like a microphone,” says study author Michael Kolios, a physics professor at Ryerson and Canada Research Chair in biomedical applications of ultrasound. “We are just listening to what’s happening.”

Kolios and his colleagues at Ryerson tweaked a customized photoacoustic microscope to detect very high frequencies. Now they can recognize red blood cells’ shapes and sizes with greater definition than ever before.


Previously, researchers could only use a frequency under 100 megahertz for their photoacoustic experiments because it is difficult to obtain sensors strong enough to work with larger frequencies. Images made from such low frequencies did not reveal much, allowing investigators to see that there was a cell there—but not much more. The Ryerson team was able to use much higher frequency sound waves thanks to a special ultrasound sensor that can pick up the higher frequencies.


While there are still a number of technical issues to work out, researchers are encouraged by the clarity of the images that are now available with photoacoustics. The next step, says Lihong Wang, a biomedical engineer at Washington University in Saint Louis, is to think about culling information from places where blood vessels are relatively accessible, like the arm. “This will inspire some new work, and we may start looking at photoacoustic information for the purpose of quantifying the shape of a single blood cell.” Wang says.

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