New test developed by scientists uses high frequency sound waves to diagnose blood-related diseases.
Similar to the way one can hear the voices of different people and identify who they are, investigators could analyze the sound waves produced by red blood cells and recognize their shape and size.
The information may aid in the development of simple tests for blood-related diseases.
"We plan to make specialized devices that will allow the detection of individual red blood cells and analyze the photoacoustic signals they produce to rapidly diagnose red blood cell pathologies," senior author Dr. Michael Kolios, of Ryerson University, Toronto, said.
Deviations from the regular biconcave shape of a red blood cell are a significant indicator of blood-related diseases, whether they result from genetic abnormalities, from infectious agents, or simply from a chemical imbalance.
For example, malaria patients' red blood cells are irregularly swollen, while those of patients with sickle cell anemia take on a rigid, sickle shape.
Using a special photoacoustic microscope that detects sound, the investigators were able to differentiate healthy red blood cells from irregularly shaped red blood cells with high confidence, using a sample size of just 21 cells.
Because each measurement takes only fractions of a second, the method could eventually be incorporated into an automated device for rapid characterization of red blood cells from a single drop of blood obtained in the clinic.
The findings are published in the Biophysical Journal, published by Cell Press.